CN104317440A - Linear processing equipment of intelligent digital communication equipment touch screen surface high-molecular compound - Google Patents

Abstract

The invention belongs to the electromechanical technology field, and particularly relates to linear processing equipment of intelligent digital communication equipment touch screen surface high-molecular compound. The linear processing equipment comprises a moving mechanism, a rotary mechanism and a circuit board, board turning action and the application of linear processing pressure are separately controlled, an upper workbench adopts a middle board turning mechanism and comprises a rotary vacuum board and a rotary back board, the rotary vacuum board is fixedly arranged on a rotary shaft via the rotary back board, and the rotary vacuum board is arranged below the rotary back board. According to the above structure, precision on regulating the horizontal position and the rotation angle of the workbench is improved, the workbench achieves an optimal linear processing position and angle, linear processing deflection is avoided, and strength on a front end and a rear end is consistent during linear processing.

Description

Intelligent digital communication apparatus touch screen surface macromolecular compound linear processing devices

Technical field

The invention belongs to field of electromechanical technology, particularly relate to intelligent digital communication apparatus touch screen surface macromolecular compound linear processing devices.

Background technology

, when adjusting operating platform horizontal level and the anglec of rotation, because degree of regulation is inadequate, after making the linear first row relax of the macromolecular compound on smart machine surface, there is deviation in existing intelligent digital communication apparatus touch screen surface macromolecular compound linear processing devices.Linear process angle can not reach desirable scope, and when causing whole macromolecular compound linear process, front and back end dynamics is inconsistent.

Summary of the invention

The object of the invention is to propose intelligent digital communication apparatus touch screen surface macromolecular compound linear processing devices, shake little, structural stability is high, and reliability is high, adds the controllability of linear process effect.

For reaching this object, the present invention by the following technical solutions:

Intelligent digital communication apparatus touch screen surface macromolecular compound linear processing devices, comprises travel mechanism, rotating mechanism and circuit board;

Described rotating mechanism comprises rotating driver, turning axle, runing rest, base plate and upper table; Described rotating driver and described turning axle are arranged on described base plate by described runing rest, and described rotating driver is connected with described turning axle, and described upper table is arranged on described turning axle;

Described travel mechanism comprises transfer table and lower table, described transfer table comprises X to platform, XY web joint, Y-direction platform and angle adjustment plate, described X passes through the track installation of X-direction on described base plate to platform, described XY web joint by the track installation of X-direction at described X on platform, described Y-direction platform passes through the track installation of Y direction on described XY web joint, described angle adjustment plate is connected with described Y-direction platform by the rotating shaft of Z-direction, and described rotating shaft is positioned at the center of described angle adjustment plate; Described lower table is arranged on described angle adjustment plate;

Described rotating driver is connected by shaft coupling with described turning axle, described turning axle is provided with slew buffer mechanism, and the central shaft position of described upper table is fixed on described turning axle;

Described travel mechanism also comprises tilt drive and snubber assembly, one end of the X-direction of described lower table is arranged on described angle adjustment plate by tilt stand, the side of the other end is provided with roller and is provided with tilt drive below it, and the upper end of described tilt drive is provided with tilt roller; Be connected by rotating shaft between described lower table with described tilt stand, described tilt roller contacts with described lower table and connects, and described lower table is also provided with snubber assembly;

Described upper table comprises rotatory vacuum plate and rotates backboard, and described rotatory vacuum plate is fixed on described turning axle by described rotation backboard, and the below of described rotation backboard is located at by described rotatory vacuum plate.

Further, described X is also respectively equipped with X to milscale, Y-direction milscale and angle milscale to platform, XY web joint and Y-direction platform; Described X is installed on described X to platform to milscale, and is connected by the contacts side surfaces of apical axis with the X-direction of described XY web joint; Described Y-direction milscale is installed on described XY web joint, and is connected by the contacts side surfaces of apical axis with the Y direction of described Y-direction platform; Described angle milscale is installed on described Y-direction platform, and is connected by the ends contact of apical axis with described angle adjustment plate side.

Further, also comprise pedestal, described pedestal is drawer type box base, comprises base and drawer, and described circuit board is placed in described drawer;

Described drawer is provided with control panel, the casing that described control panel, base and described base plate composition is closed.

Further, the described runing rest supporting described turning axle is gantry support.

Further, described slew buffer mechanism comprises that buffering block is gentle rushes support, and one end of described buffering block is fixed on described turning axle, and described buffering stand is placed in the below of described buffering block; Be respectively equipped with two buffering thimbles in the both sides of described turning axle, be arranged on described buffering stand, its lower end is provided with spring, and is in the radius of turn of described buffering block, matches with described buffering block; Also comprise the buffering reinforced pipe of stainless steel, be placed on described buffering thimble outer and be fixed on described buffering stand.

Further, described turning axle is installed along X-direction or Y direction.

Further, described rotating driver and described tilt drive are cylinder, and described tilt drive quantity is two.

Further, described lower table comprises vacuum backboard and vacuum angle adjustment plate, and described vacuum angle adjustment plate is arranged on described tilt stand by vacuum backboard, and the top of described vacuum backboard is located at by described vacuum angle adjustment plate.

Further, described snubber assembly comprises buffing pad and buffer bar, and described buffing pad is fixed on described transfer table, and the lower end of described buffer bar is connected with described buffing pad by spring, and the upper end of described buffer bar contacts with described lower table and connects.

The present invention, by above structure, improves the horizontal level of adjusting operating platform and the precision of the anglec of rotation, and make worktable reach best linear process position and angle, prevent linear process deflection, during linear process, the dynamics of front and back end is consistent.

Accompanying drawing explanation

Fig. 1 is the perspective view of a kind of example of the present invention.

Fig. 2 is another view stereo structural representation of Fig. 1.

Wherein: transfer table 1, X are to platform 2, XY web joint 3, Y-direction platform 4, angle adjustment plate 5, X to milscale 6, lower table 7, tilt stand 8, tilt drive 9, tilt roller 10, snubber assembly 11, roller 12, rotating driver 13, turning axle 14, runing rest 15, base plate 16, shaft coupling 17, slew buffer mechanism 18, buffering block 19, buffering stand 20, buffering thimble 21, buffering reinforced pipe 22, upper table 23, base 24, control panel 25.

Embodiment

Technical scheme of the present invention is further illustrated by embodiment below in conjunction with accompanying drawing.

As shown in Figure 1 to Figure 2, intelligent digital communication apparatus touch screen surface macromolecular compound linear processing devices, comprises travel mechanism, rotating mechanism and circuit board;

Described rotating mechanism comprises rotating driver 13, turning axle 14, runing rest 15, base plate 16 and upper table 23; Described rotating driver 13 and described turning axle 14 are arranged on described base plate 16 by described runing rest 15, and described rotating driver 13 is connected with described turning axle 14, and described upper table is arranged on described turning axle 14.

Described travel mechanism comprises transfer table 1 and lower table 7, described transfer table 1 comprises X to platform 2, XY web joint 3, Y-direction platform 4 and angle adjustment plate 5, described X passes through the track installation of X-direction on described base plate 16 to platform 2, described XY web joint 3 by the track installation of X-direction at described X on platform 2, described Y-direction platform 4 passes through the track installation of Y direction on described XY web joint 3, described angle adjustment plate 5 is connected with described Y-direction platform 4 by the rotating shaft of Z-direction, and described rotating shaft is positioned at the center of described angle adjustment plate 5; Described lower table 7 is arranged on described angle adjustment plate 5.

Described rotating driver 13 is connected by shaft coupling 17 with described turning axle 14, and described turning axle 14 is provided with slew buffer mechanism 18, and the central shaft position of described upper table 23 is fixed on described turning axle 14.Reduce by described slew buffer mechanism 18 vibrations produced in switching process, improve the stability of subsides machine, shaft coupling also has the effect of buffering, vibration damping and raising axle system dynamic property, improves stability further.

Described travel mechanism also comprises tilt drive 9 and snubber assembly 11, one end of the X-direction of described lower table 7 is arranged on described angle adjustment plate 5 by tilt stand 8, the side of the other end is provided with roller 12 and is provided with tilt drive 9 below it, and the upper end of described tilt drive 9 is provided with tilt roller 10; Be connected by rotating shaft between described lower table 7 with described tilt stand 8, described tilt roller 10 contacts with described lower table 7 and connects, and described lower table 7 is also provided with snubber assembly 11.Use independent tilt drive 9 to control angle of inclination and the linear process dynamics of lower table 7, obtain best linear process pressure when linear process, then can overcome completely and occur bubble or impression etc. shortcoming.Described subsides and snubber assembly 11 reduce vibrations during linear process, improve linear process effect.

Described X is also respectively equipped with X to milscale 6, Y-direction milscale and angle milscale to platform 2, XY web joint 3 and Y-direction platform 4; Described X is installed on described X to platform 2 to milscale 6, and is connected by the contacts side surfaces of apical axis with the X-direction of described XY web joint 3; Described Y-direction milscale is installed on described XY web joint 3, and is connected by the contacts side surfaces of apical axis with the Y direction of described Y-direction platform 4; Described angle milscale is installed on described Y-direction platform 4, and is connected by the ends contact of apical axis with described angle adjustment plate 5 side.Described X finely tunes the position of described lower table 7X direction of principal axis and Y direction respectively to milscale 6 and Y-direction milscale, and described angle milscale axle centered by described rotating shaft, finely tunes the anglec of rotation of described lower table 7 at surface level.

Further, also comprise pedestal, described pedestal is drawer type box base, comprises base 24 and drawer, and described circuit board is placed in described drawer.Adopt drawer type cabinet loading circuit, be convenient to maintenance.

Described drawer is provided with control panel 25, the casing that described control panel 25, base 24 and described base plate 16 composition is closed.

Further, the described runing rest 15 supporting described turning axle 14 is gantry support, and turning axle support 230 adopts planer-type but not " L " type, improves the rigidity of structure.

Further, described slew buffer mechanism 18 comprises buffering block 19 and buffering stand 20, and one end of described buffering block 19 is fixed on described turning axle 14, and described buffering stand 20 is placed in the below of described buffering block 19, be respectively equipped with two buffering thimbles 21 in the both sides of described turning axle 14, be arranged on described buffering stand 20, its lower end is provided with spring, and is in the radius of turn of described buffering block 19, matches with described buffering block 19, also comprise the buffering reinforced pipe 22 of stainless steel, be placed on described buffering thimble 21 outer and be fixed on described buffering stand 20, the pin-point accuracy of described buffering reinforced pipe 22 is utilized to control the position of rotation of described buffering block 19, thus control the flip angle of described upper table 23, described buffering reinforced pipe 22 uses screw thread to be arranged on described buffering stand 20, its lower surface utilizes pad as lower reference field, buffering reinforced pipe 22 hard wear resistant of stainless steel, can ensure can not wear and tear in long-term use procedure, allow described upper table 23 still can keep flip angle accurately after long-term work.

Further, described turning axle 14 is installed along X-direction or Y direction.

Further, described rotating driver 13 and described tilt drive 9 are cylinder, and described tilt drive 9 quantity is two.

Further, described upper table 23 comprises rotatory vacuum plate 271 and rotates backboard 272, and described rotatory vacuum plate 271 is fixed on described turning axle 14 by described rotation backboard 272, and the below of described rotation backboard 272 is located at by described rotatory vacuum plate 271.

Further, described lower table 7 comprises vacuum backboard 121 and vacuum angle adjustment plate 122, described vacuum angle adjustment plate 122 is arranged on described tilt stand 8 by vacuum backboard 121, and the top of described vacuum backboard 121 is located at by described vacuum angle adjustment plate 122.

Further, described snubber assembly 11 comprises buffing pad 161 and buffer bar 162, described buffing pad 161 is fixed on described transfer table 1, and the lower end of described buffer bar 162 is connected with described buffing pad 161 by spring, and the upper end of described buffer bar 162 contacts with described lower table 7 and connects.

The present invention is by above structure, and linear process pressure can quantitatively regulate, linear process adjustable angle, turnover panel action separates with the applying of linear process pressure and controls, panel turnover mechanism in the middle of adopting, greatly reduces the moment of inertia of turnover panel, improves stability, the reliability of action.Rotating driver controls turnover panel action, tilt drive controls the angle of inclination of lower table, fixing quantity linear process pressure, and angle adjusting mechanism and panel turnover mechanism are separated, like this each factor of the linear treatment effect of impact is controlled separately, such as linear process angle, linear process pressure, reach the effect of decoupling zero, improves the controllability to linear process effect.

Below know-why of the present invention is described in conjunction with specific embodiments.These describe just in order to explain principle of the present invention, and can not be interpreted as limiting the scope of the invention by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other embodiment of the present invention, and these modes all will fall within protection scope of the present invention.

Claims (9)

1. intelligent digital communication apparatus touch screen surface macromolecular compound linear processing devices, comprises travel mechanism, rotating mechanism and circuit board;

Described rotating mechanism comprises rotating driver, turning axle, runing rest, base plate and upper table; Described rotating driver and described turning axle are arranged on described base plate by described runing rest, and described rotating driver is connected with described turning axle, and described upper table is arranged on described turning axle;

Described travel mechanism comprises transfer table and lower table, described transfer table comprises X to platform, XY web joint, Y-direction platform and angle adjustment plate, described X passes through the track installation of X-direction on described base plate to platform, described XY web joint by the track installation of X-direction at described X on platform, described Y-direction platform passes through the track installation of Y direction on described XY web joint, described angle adjustment plate is connected with described Y-direction platform by the rotating shaft of Z-direction, and described rotating shaft is positioned at the center of described angle adjustment plate; Described lower table is arranged on described angle adjustment plate;

Described rotating driver is connected by shaft coupling with described turning axle, described turning axle is provided with slew buffer mechanism, and the central shaft position of described upper table is fixed on described turning axle;

Described travel mechanism also comprises tilt drive and snubber assembly, one end of the X-direction of described lower table is arranged on described angle adjustment plate by tilt stand, the side of the other end is provided with roller and is provided with tilt drive below it, and the upper end of described tilt drive is provided with tilt roller; Be connected by rotating shaft between described lower table with described tilt stand, described tilt roller contacts with described lower table and connects, and described lower table is also provided with snubber assembly;

It is characterized in that: described upper table comprises rotatory vacuum plate and rotates backboard, and described rotatory vacuum plate is fixed on described turning axle by described rotation backboard, and the below of described rotation backboard is located at by described rotatory vacuum plate.

2. intelligent digital communication apparatus touch screen surface according to claim 1 macromolecular compound linear processing devices, is characterized in that: described X is also respectively equipped with X to milscale, Y-direction milscale and angle milscale to platform, XY web joint and Y-direction platform; Described X is installed on described X to platform to milscale, and is connected by the contacts side surfaces of apical axis with the X-direction of described XY web joint; Described Y-direction milscale is installed on described XY web joint, and is connected by the contacts side surfaces of apical axis with the Y direction of described Y-direction platform; Described angle milscale is installed on described Y-direction platform, and is connected by the ends contact of apical axis with described angle adjustment plate side.

3. intelligent digital communication apparatus touch screen surface according to claim 2 macromolecular compound linear processing devices, it is characterized in that: also comprise pedestal, described pedestal is drawer type box base, comprises base and drawer, and described circuit board is placed in described drawer;

Described drawer is provided with control panel, the casing that described control panel, base and described base plate composition is closed.

4. intelligent digital communication apparatus touch screen surface according to claim 1 macromolecular compound linear processing devices, is characterized in that: the described runing rest supporting described turning axle is gantry support.

5. intelligent digital communication apparatus touch screen surface according to claim 1 macromolecular compound linear processing devices, it is characterized in that: described slew buffer mechanism comprises that buffering block is gentle rushes support, one end of described buffering block is fixed on described turning axle, and described buffering stand is placed in the below of described buffering block; Be respectively equipped with two buffering thimbles in the both sides of described turning axle, be arranged on described buffering stand, its lower end is provided with spring, and is in the radius of turn of described buffering block, matches with described buffering block; Also comprise the buffering reinforced pipe of stainless steel, be placed on described buffering thimble outer and be fixed on described buffering stand.

6. intelligent digital communication apparatus touch screen surface according to claim 1 macromolecular compound linear processing devices, is characterized in that: described turning axle is installed along X-direction or Y direction.

7. intelligent digital communication apparatus touch screen surface according to claim 1 macromolecular compound linear processing devices, it is characterized in that: described rotating driver and described tilt drive are cylinder, described tilt drive quantity is two.

8. intelligent digital communication apparatus touch screen surface according to claim 1 macromolecular compound linear processing devices, it is characterized in that: described lower table comprises vacuum backboard and vacuum angle adjustment plate, described vacuum angle adjustment plate is arranged on described tilt stand by vacuum backboard, and the top of described vacuum backboard is located at by described vacuum angle adjustment plate.

9. intelligent digital communication apparatus touch screen surface according to claim 1 macromolecular compound linear processing devices, it is characterized in that: described snubber assembly comprises buffing pad and buffer bar, described buffing pad is fixed on described transfer table, the lower end of described buffer bar is connected with described buffing pad by spring, and the upper end of described buffer bar contacts with described lower table and connects.