CN203726637U - Movable workbench structure of two-way automatic numerical-control glass drilling machine - Google Patents

Abstract

The utility model relates to a movable workbench structure of a two-way automatic numerical-control glass drilling machine. The movable workbench structure is characterized in that longitudinal linear guide rails are fixed on a bed, longitudinal sliders are slidably connected on the longitudinal linear guide rails, first supports and second supports are fixed on the longitudinal sliders, and a longitudinal translation motion mechanism of a longitudinal sliding truss is mounted on the bed; an inside lateral linear guide rail and an outside lateral guide rail are fixed on the lateral sliding trusses, each lateral linear guide rail is slidably connected with at least two lateral sliders, a lateral sliding truss is fixed on the lateral sliders, a flexible angle rule seat is fixed on the lateral sliding truss, and a lateral translation motion mechanism of the lateral sliding truss is fixed on the lateral sliders. The movable workbench structure is simple in structure, high in automation degree, simple and convenient to operate, accurate in positioning and applicable to continuous drilling of glass.

Description

The movable table structure of two-way digital control glass automatic drilling machine

Technical field

The utility model relates to a kind of plant equipment of glass automatic drilling, and the utility model especially relates to a kind of movable table structure of two-way digital control glass automatic drilling machine.

Background technology

At present, the required glass in many fields need to bore several holes, as the through wires hole of the button hole of household appliance glass, photovoltaic cell backplane glass, and the fixing hole of vehicle glass and handle hole etc.Traditional drilling machine can only be realized every dozen of holes needs moved by hand Locating Glass once, and efficiency is low and hole position error is large.

For this reason, people have carried out widely research, produced can continuous drilling rig.Such as there being a kind of numerical control glass drilling machine, carry glass by belt conveyor and hold down gag, fed distance by servomotor control belt conveyor to glass, this kind of 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.And for example there is a kind of numerical control glass drilling machine, carry glass by clamp clamps glass, carried the distance of glass by servomotor control, mobile lateral separation again after this kind of device needs fore-and-aft distance to move, efficiency is low, and fixture is understood glass (as the solar energy glass) surface tear that effects on surface is had relatively high expectations.

Such glass drilling device also has good several, though all feasible, studying carefully the aspects such as its economic and practical, process velocity and precision has deficiency and defect eventually.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, provide a kind of simple in structure, automaticity is high, easy and simple to handle, registration and be applicable to the movable table structure of the two-way digital control glass automatic drilling machine of continuous drilling.

The technical scheme providing according to the utility model, the movable table structure of described two-way digital control glass automatic drilling machine, comprise support, on support, be fixed with the two vertical linear guide rails in left and right, on every vertical linear guide rail, slidably connect at least two longitudinal sliding blocks, on longitudinal sliding block on the vertical linear guide rail that is installed on right side, be fixed with the first bearing, on a longitudinal sliding block on the vertical linear guide rail that is installed on left side, be fixed with the first bearing, on another piece longitudinal sliding block on the vertical linear guide rail that is installed on left side, be fixed with the second bearing, on the first bearing and the second bearing, be fixed with longitudinal sliding motion truss, the longitudinal translation actuating unit of longitudinal sliding motion truss is installed on support,

On longitudinal sliding motion truss, be fixed with inside and outside two horizontal linear guide rails, on every horizontal linear guide rail, slidably connect at least two transverse sliders, on transverse slider, be fixed with horizontal slip truss, being laterally fixed with the clever angle square seat of living on slip truss, the transverse translation actuating unit of horizontal slip truss is installed on longitudinal sliding motion truss;

On support, be fixed with fuselage, drill head, lower drill head, touch-screen and PLC control cabinet are installed on fuselage.

Laterally on slip truss, be fixed with table top lath.

The longitudinal translation actuating unit of described longitudinal sliding motion truss is included in longitudinal ball screw and the servo longitudinal motor on the left side wall of support or right side wall, installed, the output shaft of servo longitudinal motor is connected with one end of longitudinal ball screw, longitudinally on ball screw, be bolted with longitudinal nut, longitudinally nut and described the second bearing are fixed as one.

The transverse translation actuating unit of described horizontal slip truss is included in the transverse ball lead screw installed on the lateral wall of longitudinal sliding motion truss or madial wall and horizontal servomotor, laterally the output shaft of servomotor and one end of transverse ball lead screw are connected, on transverse ball lead screw, be bolted with horizontal nut, laterally nut and the described clever angle square seat of work are fixed as one.

The utility model has the following advantages compared to existing technology:

The utility model is simple in structure, automaticity is high, easy and simple to handle, registration and be applicable to the continuous drilling needs of glass.

Brief description of the drawings

Fig. 1 is overall structure schematic diagram of the present utility model.

Fig. 2 is the structural representation of (support) and vertical linear guide rail in the utility model.

Fig. 3 is the structural representation of horizontal linear guide rail in the utility model.

Fig. 4 is the structural representation of horizontal slip truss in the utility model.

Fig. 5 is the structural representation of the utility model middle machine body.

Detailed description of the invention

Below in conjunction with specific embodiment, the utility model is described in further detail.

The movable table structure of this two-way digital control glass automatic drilling machine, comprise support 1, on support 1, be fixed with the two vertical linear guide rails 12 in left and right, on every vertical linear guide rail 12, slidably connect at least two longitudinal sliding blocks 13, on longitudinal sliding block 13 on the vertical linear guide rail 12 that is installed on right side, be fixed with the first bearing 14, on a longitudinal sliding block 13 on the vertical linear guide rail 12 that is installed on left side, be fixed with the first bearing 14, on another piece longitudinal sliding block 13 on the vertical linear guide rail 12 that is installed on left side, be fixed with the second bearing 15, on the first bearing 14 and the second bearing 15, be fixed with longitudinal sliding motion truss 19, the longitudinal translation actuating unit of longitudinal sliding motion truss 19 is installed on support 1,

On longitudinal sliding motion truss 19, be fixed with inside and outside two horizontal linear guide rails 22, on every horizontal linear guide rail 22, slidably connect at least two transverse sliders 23, on transverse slider 23, be fixed with horizontal slip truss 21, being laterally fixed with the clever angle square seat 27 of living on slip truss 21, the transverse translation actuating unit of horizontal slip truss 21 is installed on longitudinal sliding motion truss 19;

On support 1, be fixed with fuselage 41, drill head 42, lower drill head 45, touch-screen 43 and PLC control cabinet 44 are installed on fuselage 41.

Laterally on slip truss 21, be fixed with table top lath 28.

The longitudinal translation actuating unit of described longitudinal sliding motion truss 19 is included in the longitudinal ball screw 17 and servo longitudinal motor 18 on the left side wall of support 1 or right side wall, installed, the output shaft of servo longitudinal motor 18 is connected with one end of longitudinal ball screw 17, longitudinally on ball screw 17, be bolted with longitudinal nut 16, longitudinally nut 16 is fixed as one with described the second bearing 15.

The transverse translation actuating unit of described horizontal slip truss 21 is included in the transverse ball lead screw 25 installed on the lateral wall of longitudinal sliding motion truss 19 or madial wall and horizontal servomotor 26, laterally the output shaft of servomotor 26 is connected with one end of transverse ball lead screw 25, on transverse ball lead screw 25, be bolted with horizontal nut 24, laterally nut 24 is fixed as one with the described clever angle square seat 27 of work.

As shown in Figure 2, two vertical linear guide rails 12 are fixed on support 1, and the second bearing 15 is connected on vertical linear guide rail 12 by longitudinal sliding block 13; At the left side wall of support 1, longitudinal ball screw 17 and servo longitudinal motor 18 are installed, longitudinally nut 16 is screwed onto on longitudinal ball screw 17, the second bearing 15 is connected with longitudinal nut 16, is connected on vertical linear guide rail 12 by longitudinal sliding block 13 by three the first bearings 14.Longitudinal sliding motion truss 19 fixes with three the first bearings 14 and second bearing 15 of its below.Under the driving of servo longitudinal motor 18, longitudinal sliding motion truss 19 and be arranged on all parts on longitudinal sliding motion truss 19 all along the longitudinal linear guides 12 do the translational motion of fore-and-aft direction.

As shown in Figure 3, two horizontal linear guide rails 22 are fixed on longitudinal sliding motion truss 19, on every horizontal linear guide rail 22, two transverse sliders 23 are all installed, at the front side wall of longitudinal sliding motion truss 19, transverse ball lead screw 25 and horizontal servomotor 26 are installed, on transverse ball lead screw 25, be bolted with horizontal nut 24, laterally slip truss 21 fixes with four transverse sliders 23 of its below, laterally on slip truss 21, be fixed with the clever angle square seat 27 of living, the clever angle square seat 27 of living fixes with horizontal nut 24.Under the driving of horizontal servomotor 26, truss 21 translation that transversely linear guides 22 does left and right directions of laterally sliding is moved.

As shown in Figure 5, PLC encoder control servo longitudinal motor in PLC control cabinet 44 18 and the laterally transmission of servomotor 26, input the position, hole of processed glass by touch-screen 43, realize the continuous drilling operation of glass.

Table top lath 28 in Fig. 4, can laterally adjust according to the position, hole of institute's processed glass, avoids position, hole, and it is holed smoothly.

Within the scope of the boring of machine, the position, hole of any pitch-row and quantity can be set.Below concrete operating process is further described:

1, the benchmark position of required processed glass is set, regulating platform panel bar 28.

2, glass orifice position is inputted by touch-screen 43, system can be sent instruction by PLC encoder, by the rotation of longitudinal ball screw 17, transverse ball lead screw 26, makes longitudinal sliding motion truss 19 and horizontal slip truss 21 slide into the position, hole of required boring.

3, finish above 2 preparations, glass is put to the work top being formed by table top lath 28, start drilling program, upper drill head 42 completes the boring in first hole with lower drill head 45, longitudinal sliding motion truss 19 and laterally slip truss 21 move to position place, second hole to be stopped, upper drill head 42 completes the boring in second hole with lower drill head 45, and operation so always, until complete the boring in last hole.

4, complete after a drilling program, longitudinal sliding motion truss 19 and laterally slip truss 21 automatically reset, and repeat drilling program.

Claims (4)

1. the movable table structure of a two-way digital control glass automatic drilling machine, comprise support (1), it is characterized in that: on support (1), be fixed with the two vertical linear guide rails in left and right (12), on every vertical linear guide rail (12), slidably connect at least two longitudinal sliding blocks (13), on longitudinal sliding block (13) on the vertical linear guide rail (12) that is installed on right side, be fixed with the first bearing (14), on a longitudinal sliding block (13) on the vertical linear guide rail (12) that is installed on left side, be fixed with the first bearing (14), on another piece longitudinal sliding block (13) on the vertical linear guide rail (12) that is installed on left side, be fixed with the second bearing (15), on the first bearing (14) and the second bearing (15), be fixed with longitudinal sliding motion truss (19), the longitudinal translation actuating unit of longitudinal sliding motion truss (19) is installed on support (1),

On longitudinal sliding motion truss (19), be fixed with inside and outside two horizontal linear guide rails (22), on every horizontal linear guide rail (22), slidably connect at least two transverse sliders (23), on transverse slider (23), be fixed with horizontal slip truss (21), being laterally fixed with the clever angle square seat (27) of living on slip truss (21), the transverse translation actuating unit of horizontal slip truss (21) is installed on longitudinal sliding motion truss (19);

On support (1), be fixed with fuselage (41), upper drill head (42), lower drill head (45), touch-screen (43) and PLC control cabinet (44) are installed on fuselage (41).

2. the movable table structure of two-way digital control glass automatic drilling machine as claimed in claim 1, is characterized in that: laterally on slip truss (21), be fixed with table top lath (28).

3. the movable table structure of two-way digital control glass automatic drilling machine as claimed in claim 1, it is characterized in that: the longitudinal translation actuating unit of described longitudinal sliding motion truss (19) is included in the longitudinal ball screw (17) and servo longitudinal motor (18) on the left side wall of support (1) or right side wall, installed, the output shaft of servo longitudinal motor (18) is connected with one end of longitudinal ball screw (17), longitudinally on ball screw (17), be bolted with longitudinal nut (16), longitudinally nut (16) is fixed as one with described the second bearing (15).

4. the movable table structure of two-way digital control glass automatic drilling machine as claimed in claim 1, it is characterized in that: the transverse translation actuating unit of described horizontal slip truss (21) is included in the transverse ball lead screw (25) installed on the lateral wall of longitudinal sliding motion truss (19) or madial wall and horizontal servomotor (26), laterally the output shaft of servomotor (26) is connected with one end of transverse ball lead screw (25), on transverse ball lead screw (25), be bolted with horizontal nut (24), laterally nut (24) is fixed as one with the described clever angle square seat of work (27).