CN206193391U - LCD optical automatic test platform - Google Patents

Abstract

The utility model discloses a LCD optical automatic test platform, including optic platform base, X Y Z axle linear motion platform and theta axle, phi axle rotary platform, instrument fine adjustment base, centering anchor clamps, luminance colorimeter, therefore, because the utility model discloses installing the luminance colorimeter in this mechanism, can realizing that the automation of the LCD degree of consistency and angle of visibility is measurationed, the luminance colorimeter is installed in the Y who reciprocates epaxially, controls and the seesaw about can realizing, the LCD that awaits measuring installs on two -dimentional rotation axis, can realize that the two dimension of axial and normal direction is rotatory, uses the utility model provides test time has been saved to high measuring accuracy, has improved work efficiency.

Description

Liquid crystal display optics automatically testing platform

Technical field

The utility model is related to a kind of tester, more particularly to a kind of liquid crystal display optics automatically testing platform, Mainly coordinate the automatic test mechanism of YC meter testing liquid crystal display optical characteristics.

Background technology

Conventional method YC meter testing liquid crystal display, is mainly arranged on luminance meter on tripod, non-to putting It is often inconvenient, and test position precision is low, it is impossible to test angle of visibility.

The content of the invention

The purpose of this utility model is to provide a kind of detection efficiency liquid crystal display optics automatically testing platform high.

To achieve the above object, technical solution of the present utility model is：

The utility model is a kind of liquid crystal display optics automatically testing platform, including optical table base, X-axis straight line fortune It is moving platform, Y-axis linear motion platform, Z axis linear motion platform, θ axles rotation platform, Φ axles rotation platform, instrument fine tuning seat, right Middle fixture, YC meter；Described Y-axis linear motion platform and Φ axle rotation platforms is installed on optical table base worktable On face, X-axis linear motion platform is installed on the sliding block of Y-axis linear motion platform and the sliding block of X-axis linear motion platform is moved Direction is vertical with the sliding block moving direction of Y-axis linear motion platform；It is straight that described Z axis linear motion platform is installed vertically on X-axis On the sliding block of line motion platform；Described θ axle rotation platforms are installed vertically on Φ axle rotation platforms and θ axles rotation platform rotates The rotary shaft of axle and Φ axle rotation platforms is into degree angle；Described centering clamp is installed on the rotating circular disk of θ axle rotation platforms, Two-way trapezoidal screw on centering clamp can clamp product liquid crystal display to be measured；It is micro- that described YC meter is installed on instrument Adjust on seat, instrument fine tuning seat is arranged on the sliding block of Z axis linear motion platform, instrument fine tuning seat can make left rotation and right rotation fine setting and bow Fine setting is faced upward, the setting angle based on adjusting YC.

Described optical table susceptor surface is 25 × 25mm array holes, and inside is rice font supporting construction, plays shock insulation Effect.

Described centering clamp positive stop inner side is generally aligned in the same plane interior with Φ axle rotation platform rotary shafts.

YC photometric axle is parallel with θ axle rotation platform rotary shafts.

Described θ axles rotation platform, Φ axles rotation platform all uses hollow reducer structure, built-in crossed roller bearing, energy Bear larger radial and axial power.

After using such scheme, because the utility model includes optical table base, X-axis linear motion platform, Y-axis straight line Motion platform, Z axis linear motion platform, θ axles rotation platform, Φ axles rotation platform, instrument fine tuning seat, centering clamp, brightness color Degree meter, be installed on YC meter in the mechanism by the utility model, be capable of achieving liquid crystal display uniformity degree and angle of visibility from Momentum is surveyed, and mechanical mechanism includes the axles of XYZ tri- linear motion and θ Φ Two Dimensional Rotatings mechanism, and all motions all pass through upper computer software Control, YC meter is installed in the Y-axis for moving up and down, and is capable of achieving up and down and is moved forward and backward, liquid crystal display to be measured It is installed on Two Dimensional Rotating axle, is capable of achieving the Two Dimensional Rotating axially with normal direction.Measuring accuracy is improve using the utility model, is saved The testing time has been saved, operating efficiency has been improve.

The utility model is further described with specific embodiment below in conjunction with the accompanying drawings.

Brief description of the drawings

Fig. 1 is axonometric drawing of the present utility model；

Fig. 2 is the utility model structure of linear motion schematic diagram；

Fig. 3 is the utility model rotary motion structural representation；

Fig. 4 is the three-dimensional exploded view of the utility model fixture.

Specific embodiment

As shown in figure 1, the utility model is a kind of liquid crystal display optics automatically testing platform, including optical table base 1st, X-axis linear motion platform 2, Y-axis linear motion platform 3, Z axis linear motion platform 4, θ axles rotation platform 5, Φ axle rotary flats Platform 6, instrument fine tuning seat 7, centering clamp 8, YC meter 9.

The described surface of optical table base 1 is 25 × 25mm array holes, and inside is rice font supporting construction, plays shock insulation Effect.Described Y-axis linear motion platform 3 and Φ axles rotation platform 6 is installed on the work top of optical table base 1, X-axis Linear motion platform 2 be installed on the sliding block of Y-axis linear motion platform 3 and the sliding block moving direction of X-axis linear motion platform 2 with The sliding block moving direction of Y-axis linear motion platform 3 is vertical；Described Z axis linear motion platform 4 is installed vertically on X-axis straight line fortune On the sliding block of moving platform 2；Described θ axles rotation platform 5 is installed vertically on Φ axles rotation platform 6 and θ axles rotation platform 5 rotates The rotary shaft of axle and Φ axles rotation platform 6 is into 90 degree of angles；Described centering clamp 8 is installed on the rotational circle of θ axles rotation platform 5 On disk 53, positive stop inner side and the rotary shaft of Φ axles rotation platform 6 of centering clamp 8 are generally aligned in the same plane interior, rotating circular disk 53 Centre is through hole, and the two-way trapezoidal screw on centering clamp 8 can clamp product to be measured（Liquid crystal display）10；Described brightness color Degree meter 9 is installed on instrument fine tuning seat 7, and the optical axis of YC meter 9 is parallel with θ axles 5 rotary shafts of rotation platform.Instrument fine tuning seat 7 On the sliding block of Z axis linear motion platform 4, instrument fine tuning seat 7 can make left rotation and right rotation fine setting and pitching fine setting, for adjusting The setting angle of YC meter 9.

As shown in Fig. 2 the utility model X-axis linear motion platform 2, Y-axis linear motion platform 3, Z axis linear motion platform 4 three linear motions in direction use ball screw modular structure, are engaged with screw mandrel nut with the translating rotation of motor The linear motion of sliding block.

As shown in Figure 1 and Figure 2, the utility model can set X-axis linear motion platform 2, Y-axis and move along a straight line by host computer Platform 3, Z axis linear motion platform 4, θ axles rotation platform 5, the position of Φ axles rotation platform 6.

As shown in figure 3, rotary motion structure of the present utility model includes two parts：（1）It is perpendicular to horizontal direction Rotating mechanism, i.e. θ axles rotation platform 5.The centering clamp 8 of product 10 links together with vertical harmonical reductor 51, by electricity Machine 52 rotarily drives vertical harmonical reductor 51 and rotates, so as to realize the rotation of vertical direction.（2）It is the whirler of horizontal direction Structure, i.e. Φ axles rotation platform 6.The centering clamp 8 of product 10 links together with horizontal harmonic wave speed reducing machine 61, by motor 62 Rotarily drive horizontal harmonic wave speed reducing machine 61 to rotate, so as to realize the rotation of horizontal direction.Described θ axles rotation platform 5, Φ axles rotation Turn platform 6 all using hollow reducer structure, built-in crossed roller bearing can bear larger radial and axial power.

As shown in figure 4, described centering clamp 8 is double thread screw mandrel 81, double thread screw mandrel 81 is screwed manually and is achieved that Fixture block 82 relative moves towards.

Test mode of the present utility model：

By external control device PC, USB keyboard, wireless remote control handle, XYZ axles and θ Φ axles, input motion position are controlled Put coordinate information.According to the movement position of setting, YC meter 9 moves to the position of setting, product（Liquid crystal display）10 Corresponding angle is rotated to, implements test.

The above, only the utility model preferred embodiment, the shape of structure of linear motion and rotary motion structure Formula can have various, therefore the scope of the utility model implementation can not be limited with this, i.e., according to present utility model application the scope of the claims and say Equivalence changes that bright book content is made and modification, all should still belong in the range of the utility model patent covers.

Claims (5)

1. a kind of liquid crystal display optics automatically testing platform, it is characterised in that：Moved along a straight line including optical table base, X-axis Platform, Y-axis linear motion platform, Z axis linear motion platform, θ axles rotation platform, Φ axles rotation platform, instrument fine tuning seat, centering Fixture, YC meter；Described Y-axis linear motion platform and Φ axle rotation platforms is installed on optical table base worktable face On, X-axis linear motion platform be installed on the sliding block of Y-axis linear motion platform and X-axis linear motion platform sliding block movement side To vertical with the sliding block moving direction of Y-axis linear motion platform；Described Z axis linear motion platform is installed vertically on X-axis straight line On the sliding block of motion platform；Described θ axle rotation platforms are installed vertically on Φ axle rotation platforms and θ axle rotation platform rotary shafts With the rotary shaft of Φ axle rotation platforms into degree angle；Described centering clamp is installed on the rotating circular disk of θ axle rotation platforms, right Two-way trapezoidal screw on middle fixture can clamp product liquid crystal display to be measured；Described YC meter is installed on instrument fine setting On seat, instrument fine tuning seat is arranged on the sliding block of Z axis linear motion platform, and instrument fine tuning seat can make left rotation and right rotation fine setting and pitching Fine setting, the setting angle based on adjusting YC.

2. liquid crystal display optics automatically testing platform according to claim 1, it is characterised in that：Described optical table Susceptor surface is 25 × 25mm array holes, and inside is rice font supporting construction, plays a part of shock insulation.

3. liquid crystal display optics automatically testing platform according to claim 1, it is characterised in that：Described centering clamp Positive stop inner side is generally aligned in the same plane interior with Φ axle rotation platform rotary shafts.

4. liquid crystal display optics automatically testing platform according to claim 1, it is characterised in that：YC photometric axle It is parallel with θ axle rotation platform rotary shafts.

5. liquid crystal display optics automatically testing platform according to claim 1, it is characterised in that：Described θ axles rotation , all using hollow reducer structure, built-in crossed roller bearing can bear larger radial and axial power for platform, Φ axles rotation platform.