CN203254159U - Work table structure of one-way numerically-controlled automatic glass drilling machine - Google Patents

Abstract

The utility model relates to a work table structure of a one-way numerically-controlled automatic glass drilling machine. An inner linear guide rail and an outer linear guide rail are fixed on a movable table machine frame and are arranged in parallel. The linear guide rails are connected with sliding blocks in a sliding mode. A movable work table is fixed on the sliding blocks and is rectangular. A groove used for vertical drilling is formed in the middle of the movable work table. A first backing plate is fixed on the edge of one long side of the movable work table, and a second backing plate is fixed on the edge of one short side of the movable work table. The first backing plate is connected with a first puller screw rod in a screwed mode, and the second backing plate is connected with a second puller screw rod in a screwed mode. A driving mechanism of the movable work table is installed on the movable table machine frame. The work table structure of the one-way numerically-controlled automatic glass drilling machine is compact and reasonable, easy and practical to operate and small in occupied area. According to the work table structure of the one-way numerically-controlled automatic glass drilling machine, the positions of machined glass holes are accurate, the machining speed is high, the efficiency is high, and labor can be saved.

Description

The Working table structure of unidirectional numerical control automatic glass drilling device

Technical field

The utility model relates to the mechanism on a kind of unidirectional numerical control automatic glass drilling device, especially a kind of Working table structure of unidirectional numerical control automatic glass drilling device.

Background technology

At present, the required glass in many fields need to bore some holes at an axis direction, such as the button hole of household appliance glass, the through wires hole of photovoltaic cell backplane glass etc.The conventional borehole machine can only realize that every dozen of holes need the moved by hand Locating Glass once, and efficient is low and hole position error is large.

For this reason, people have carried out widely research, but have produced the rig of continuous drilling.Such as a kind of numerical control glass drilling machine is arranged, carry glass by belt conveyor and hold down gag, by the fed distance of servomotor control belt conveyor to glass, this kind device is because belt conveyor in use can be more and more loose, make the actual range of glass conveying and the fed distance of servomotor control produce error, thereby cause the distance of glass orifice interdigit to produce error.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, provides that a kind of automaticity is high, easy and simple to handle, registration and be applicable to the Working table structure of the unidirectional numerical control automatic glass drilling device of glass continuous drilling.

The technical scheme that provides according to the utility model, the Working table structure of described unidirectional numerical control automatic glass drilling device, comprise frame, be fixed with the moveable top frame in frame, be fixed with inside and outside two linear guides that are set in parallel in the moveable top frame, slidely connect slide block at linear guides, be fixed with movable table at slide block, movable table is rectangle, offer the groove of holing for up and down in the middle of the movable table, edge, a long limit at movable table is fixed with first backer's plate, a broadside edge at movable table is fixed with second backer's plate, the first plane, backer's plate place and plane, movable table place are vertical setting, the second plane, backer's plate place and plane, movable table place are vertical setting, the first plane, backer's plate place and plane, second backer's plate place are vertical setting, be bolted with first at first backer's plate and hold out against screw mandrel, be bolted with second at second backer's plate and hold out against screw mandrel, the first axis and plane, first backer's plate place that holds out against screw mandrel is vertical setting, the second axis and plane, second backer's plate place that holds out against screw mandrel is vertical setting, and the driving mechanism of movable table is installed in the moveable top frame.

The driving mechanism of described movable table is included in servomotor fixing on the moveable top frame, be rotatablely equipped with the driving screw mandrel in the moveable top frame, the length direction that drives screw mandrel is consistent with the length direction of linear guides, be bolted with the feed screw nut at the driving screw mandrel, the output shaft of servomotor links to each other with an end that drives screw mandrel, and feed screw nut and described movable table fix.

The length direction of described linear guides is consistent with the long side direction of movable table.

The utlity model has following advantage:

1, the utility model compact conformation is reasonable, practicality easy and simple to handle, and floor space is little;

2, the glass orifice position that processes of the utility model is accurate, and process velocity is fast, and efficient is high;

3, the utility model can be saved the labour.

Description of drawings

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

The specific embodiment

The utility model is described in further detail below in conjunction with specific embodiment.

The Working table structure of this unidirectional numerical control automatic glass drilling device, comprise frame 1, be fixed with moveable top frame 2 in frame, be fixed with inside and outside two linear guides that are set in parallel 3 in moveable top frame 2, slidely connect slide block 4 at linear guides 3, be fixed with movable table 5 at slide block 4, movable table 5 is rectangle, offer the groove of holing for up and down in the middle of the movable table 5, edge, a long limit at movable table 5 is fixed with first backer's plate 6, a broadside edge at movable table 5 is fixed with second backer's plate 7, first backer's plate plane, 6 place and plane, movable table 5 place are vertical setting, second backer's plate plane, 7 place and plane, movable table 5 place are vertical setting, first backer's plate plane, 6 place and plane, second backer's plate, 7 place are vertical setting, be bolted with first at first backer's plate 6 and hold out against screw mandrel 8, be bolted with second at second backer's plate 7 and hold out against screw mandrel 9, the first axis and plane, first backer's plate, 6 place that holds out against screw mandrel 8 is vertical setting, the second axis and plane, second backer's plate, 7 place that holds out against screw mandrel 9 is vertical setting, and the driving mechanism of movable table 5 is installed in moveable top frame 2.

The driving mechanism of described movable table 5 is included in servomotor 10 fixing on the moveable top frame 2, be rotatablely equipped with driving screw mandrel 11 in moveable top frame 2, the length direction that drives screw mandrel 11 is consistent with the length direction of linear guides 3, be bolted with feed screw nut 12 at driving screw mandrel 11, the output shaft of servomotor 10 links to each other with an end that drives screw mandrel 11, and feed screw nut 12 fixes with described movable table 5.

If it is a plurality of that first fixing backer's plate 6 of the edge, a long limit of movable table 5 has, then each plane, first backer's plate, 6 place must be positioned at same plane; The long limit edge line of first backer's plate plane, 6 place and movable table 5 is set in parallel.

If it is a plurality of that second fixing backer's plate 7 of a broadside edge of movable table 5 has, then each plane, second backer's plate, 7 place must be positioned at same plane; The broadside edge line of second backer's plate plane, 7 place and movable table 5 is set in parallel.

In the utility model, the length direction of linear guides 3 is consistent with the long side direction of movable table 5.

Two linear guides 3 are fixed on the moveable top frame 2, movable table 5 by fixing in its lower section and be slidingly connected at two groups of slide blocks 4 on the linear guides 3, the work top mechanism that composition can unidirectionally be free to slide; Form digital driving mechanism by the driving screw mandrel 11 that is fixed on moveable top frame 2 sides, feed screw nut 12, servomotor 10, be connected with movable table 5 by feed screw nut 12, realize the numerical control control of movable table 5 unidirectional slips, wherein servomotor 10 is controlled by the PLC encoder.

Movable table 5 laterally slides and is controlled by servomotor 10, is provided with buffering when starting and stopping, and makes glass offset phenomena can not occur on movable table 5, has guaranteed the accurate of position, hole.

Below in conjunction with accompanying drawing concrete operating process is further described:

1, regulates first and hold out against screw mandrel 8 and second and hold out against screw mandrel 9, locate the position in first hole of glass to be holed as the benchmark position.

2, the glass orifice column pitch is inputted by touch-screen, system can send instruction by the PLC encoder, by driving the rotation of screw mandrel 11, makes movable table 5 move the hole column pitch along position, hole direction.

3, finish above 2 preparations, glass is put on the movable table 5, hold out against screw mandrel 8 in first of first backer's plate, 6 both sides and screw on two pre-load nuts, hold out against screw mandrel 9 in second of second backer's plate, 7 both sides and screw on two pre-load nuts, start drilling program, borehole drill construction is finished the boring in first hole, and movable table 5 laterally moves to place, position, second hole to be stopped, drilling equipment is finished the boring in second hole, until finish the boring in last hole.

4, finish a drilling program after, movable table 5 automatically resets, and repeats drilling program.

Claims (3)

1. the Working table structure of a unidirectional numerical control automatic glass drilling device, comprise frame (1), be fixed with moveable top frame (2) in frame (1), it is characterized in that: be fixed with inside and outside two linear guides that are set in parallel (3) in moveable top frame (2), slidely connect slide block (4) at linear guides (3), be fixed with movable table (5) at slide block (4), movable table (5) is rectangle, offer the groove of holing for up and down in the middle of the movable table (5), edge, a long limit at movable table (5) is fixed with first backer's plate (6), be fixed with second backer's plate (7) at a broadside edge of movable table (5), first backer's plate (6) plane, place and movable table (5) plane, place are vertical setting, second backer's plate (7) plane, place and movable table (5) plane, place are vertical setting, first backer's plate (6) plane, place and second backer's plate (7) plane, place are vertical setting, be bolted with first at first backer's plate (6) and hold out against screw mandrel (8), be bolted with second at second backer's plate (7) and hold out against screw mandrel (9), the first axis and first backer's plate (6) plane, place that holds out against screw mandrel (8) is vertical setting, the second axis and second backer's plate (7) plane, place that holds out against screw mandrel (9) is vertical setting, and the driving mechanism of movable table (5) is installed in moveable top frame (2).

2. the Working table structure of unidirectional numerical control automatic glass drilling device as claimed in claim 1, it is characterized in that: the driving mechanism of described movable table (5) is included in the upper fixing servomotor (10) of moveable top frame (2), be rotatablely equipped with driving screw mandrel (11) in moveable top frame (2), the length direction that drives screw mandrel (11) is consistent with the length direction of linear guides (3), be bolted with feed screw nut (12) at driving screw mandrel (11), the output shaft of servomotor (10) links to each other with an end that drives screw mandrel (11), and feed screw nut (12) fixes with described movable table (5).

3. the Working table structure of unidirectional numerical control automatic glass drilling device as claimed in claim 1, it is characterized in that: the length direction of described linear guides (3) is consistent with the long side direction of movable table (5).