CN105116576B - A kind of positioner for liquid crystal module detection and localization - Google Patents

Abstract

The invention discloses a kind of positioner for liquid crystal module detection and localization, and it includes bottom plate, the module supporting plate being installed on the bottom plate and the link gear being arranged on the bottom plate；Link gear include can relative to the backstop that bottom plate slides back and forth, can be relative to the positive stop that bottom plate is dug upwards and the connecting rod being arranged between backstop and positive stop；Positive stop is provided with the baffle plate corresponding with the module chamber of module supporting plate；When backstop slides backward, driven by connecting rod, positive stop is dug upwards relative to bottom plate；In backstop forward slip, driven by connecting rod, positive stop relative to bottom plate in upward tip-up state by downwards turning over.Liquid crystal module can be directly placed into the module intracavitary of module supporting plate above positioner in the present invention, and positioning function is realized in test process, solve the problems, such as that liquid crystal module picks and places difficulty, improve testing efficiency, prevent FPC damage.

Description

A kind of positioner for liquid crystal module detection and localization

Technical field

The present invention relates to a kind of positioner, more particularly to a kind of positioner for liquid crystal module detection and localization.

Background technology

Due to liquid crystal module in the test request of a certain station, it is necessary to which liquid crystal module is placed in into a specific module chamber It is interior, it is front and rear, up and down, six faces in left and right will be positioned, and be left between positioner and liquid crystal module between very little Gap.Prior art typically use it is front and rear, up and down, or so six faces it is all fixed by the way of, liquid crystal module is only from positioner The opening oblique cutting in face enters module chamber, and operation is relatively difficult, less efficient in liquid crystal module test process, and takes out liquid crystal mould Group is possible FPC to be produced to tear, and causes its damage.

The content of the invention

The technical problem to be solved in the present invention is to provide a kind of positioner for liquid crystal module detection and localization.By this Positioner, liquid crystal module can be directly placed into the module intracavitary of module supporting plate above positioner, and in test process In realize positioning function, and by using positive stop in this positioner and the set-up mode being linked of backstop, solution The problem of liquid crystal module of having determined picks and places difficulty, substantially increases testing efficiency, prevents FPC damage.

In order to solve the above technical problems, the present invention uses following technical proposals：

A kind of positioner for liquid crystal module detection and localization, the positioner include bottom plate, are installed in the bottom Module supporting plate on plate and the link gear being arranged on the bottom plate；

The link gear include can be slid back and forth relative to the bottom plate backstop, can be upward relative to the bottom plate The positive stop dug and the connecting rod being arranged between the backstop and the positive stop；The positive stop is provided with and the mould Organize the corresponding baffle plate of the module chamber of supporting plate；

When block slides backward in the rear, driven by connecting rod, the positive stop is dug upwards relative to the bottom plate； At this moment it is just completely unobstructed above the module chamber of module supporting plate, LCD module under test can be easily put into wherein.In the rear During block forward slip, driven by connecting rod, the positive stop by downwards turning over relative to the bottom plate in upward tip-up state, At this moment the baffle plate on positive stop will block the upper surface of LCD module under test, and the upper table of baffle plate bottom surface and LCD module under test It is contactless and leave gap between face, it can now start to test；After the completion of test, backstop is slided backward, positive stop Dig, LCD module under test can now be taken out upwards.

Further, the bottom plate is provided with crank-guide way, and the connecting rod is arranged in the crank-guide way.

Further, the connecting rod is arranged on the bottom plate below the module supporting plate, and the bottom plate is provided with crank-guide way, The connecting rod is arranged in the crank-guide way.

Further, the positive stop is arranged on the bottom plate by shaft seat, and the bottom surface of the positive stop is provided with First magnetite, the shaft seat are provided with the second magnetite corresponding with the first magnetite location matches, first magnetite Polarity is identical with the polarity of second magnetite；

One end of the connecting rod and the backstop are affixed, and the other end of the connecting rod is provided with to match with the positive stop Close be used for control positive stop to turn over the wedge fallen downwards.The purpose for setting the first magnetite, the second magnetite and wedge is, when When backstop slides backward, connecting rod can move backward with wedge, now, just be had between the bottom surface of positive stop and wedge Larger space, by the cooperation of the first magnetite and the second magnetite, i.e., in the presence of repulsion, positive stop is dug upwards；At this moment mould It is just completely unobstructed above the module chamber of group supporting plate, LCD module under test can be easily put into wherein.When backstop is to advancing slip When dynamic, connecting rod can move forward with wedge, and wedge will withstand the bottom surface of positive stop, and by positive stop by digging upwards State is turned over to fall to be bulldozed downwards relative to the bottom plate, and at this moment the baffle plate on positive stop will block the upper table of LCD module under test Face, now can start test job.

Further, the bottom surface of the positive stop be provided be engaged with the wedge be used for positive stop is turned over downwards The cushion block fallen.The purpose of cushion block is set to be that it is possible to so that positive stop preferably coordinates with wedge, make positive stop in connecting rod Dig upwards under effect and turn over downwards.

Further, the bottom surface of the positive stop is provided with a chute, and one end of the connecting rod and the backstop are affixed, The other end of the connecting rod be provided be engaged with the chute be used for control positive stop upwards dig and turn over downwards fall it is convex Block.By the cooperation of chute and projection realizing the linkage between positive stop, backstop and connecting rod so that positive stop is in connecting rod In the presence of can dig upwards with sliding back and forth for backstop and turn over downwards.

Further, it is toothed around on the positive stop, one end of the connecting rod and the backstop are affixed, the connecting rod The other end be provided with being used for of being engaged with the gear teeth and control positive stop to dig upwards and turn over the rack fallen downwards.Pass through wheel The cooperation of tooth and rack is realizing the linkage between positive stop, backstop and connecting rod so that positive stop is in the presence of connecting rod It can dig upwards with sliding back and forth for backstop and turn over downwards.

Further, spacing protrusive board is additionally provided with the backstop.When starting to test liquid crystal module, the backstop position In forward position, now the baffle plate on spacing protrusive board and positive stop blocks the upper surface of LCD module under test, and limit convex in the lump Contactless and leave gap between the bottom surface of plate and the upper surface of LCD module under test, spacing protrusive board and baffle plate are used for liquid crystal in the lump Positioning of the module on upper-lower position.

Further, the backstop is located at the rear end of the module supporting plate, and the baffle plate is oppositely arranged on the module The front end of chamber.

Positioner provided by the present invention, liquid crystal module can be directly placed into module supporting plate above positioner Module intracavitary, and positioning function is realized in test process, and it is removable by using upper limit side's block in this positioner Dynamic set-up mode, solve the problems, such as that liquid crystal module picks and places difficulty, improve testing efficiency, prevent FPC damage.

Brief description of the drawings

Fig. 1 is in structural front view during tip-up state for positive stop in the present invention.

Fig. 2 is in structural side view during tip-up state for positive stop in the present invention.

Fig. 3 is in structural front view during non-tip-up state for positive stop in the present invention.

Fig. 4 is in structural side view during non-tip-up state for positive stop in the present invention.

Fig. 5 is the structural decomposition diagram of the present invention.

Embodiment

Illustrate the embodiment of the present invention below in conjunction with the accompanying drawings.

Embodiment 1：

As shown in Fig. 1 to 5, a kind of positioner for liquid crystal module detection and localization, the positioner includes bottom plate 1st, the module supporting plate 2 being installed on the bottom plate 1 and the link gear being arranged on the bottom plate 1；The link gear includes The backstop 3 that can be slid back and forth relative to the bottom plate 1, the positive stop 4 that can be dug upwards relative to the bottom plate 1 and it is arranged on Connecting rod 5 between the backstop 3 and the positive stop 4；The positive stop 4 is provided with the module chamber with the module supporting plate 2 21 corresponding baffle plates 41；The backstop 3 is located at the rear end of the module supporting plate 2, and the baffle plate 41 is oppositely arranged on described The front end of module chamber 21.

The connecting rod 5 is arranged on the bottom plate 1 of the lower section of module supporting plate 2, and the bottom plate 1 is provided with crank-guide way 11, institute Connecting rod 5 is stated to be arranged in the crank-guide way 11；One end of the connecting rod 5 and the backstop 3 are affixed, the connecting rod 5 it is another End is provided with wedge 51, on the bottom surface of the positive stop 4 be provided be engaged with the wedge 51 be used for make positive stop 4 Turn over the cushion block 42 fallen downwards.

Further, the positive stop 4 is arranged on the bottom plate 1 by shaft seat 6, on the bottom surface of the positive stop 4 Provided with the first magnetite (not shown), the shaft seat 6 is provided with the second magnetic corresponding with the first magnetite location matches Stone (not shown), the polarity of first magnetite are identical with the polarity of second magnetite；

When backstop 3 slides backward, connecting rod 5 can move backward with wedge 51, now, the pad of the bottom surface of positive stop 4 Larger space is just had between block 42 and wedge 51, passes through the cooperation of the first magnetite and the second magnetite, the i.e. effect in repulsion Under, positive stop 4 is dug automatically upwards；At this moment the top of module chamber 21 of module supporting plate 2 is just completely unobstructed, can be by liquid crystal to be measured Module 7 is easily put into wherein.When 3 forward slip of backstop, connecting rod 5 can move forward with wedge 51, and wedge 51 will Withstand the cushion block 42 of the bottom surface of positive stop 4, and by positive stop 4 by downwards turning over to fall to push away relative to the bottom plate 1 in upward tip-up state Flat, at this moment the baffle plate 41 on positive stop 4 will block the upper surface of LCD module under test 7, and now can starts test job.

Further, the backstop 3 is provided with spacing protrusive board 31；When starting to test liquid crystal module 7, the backstop 3 are located at forward position, and now the baffle plate 41 on spacing protrusive board 31 and positive stop 4 blocks the upper surface of LCD module under test 7 in the lump, For positioning of the liquid crystal module 7 on upper-lower position.

Embodiment 2：

The present embodiment and the difference of embodiment 1 are：The bottom surface of the positive stop is provided with a chute, and the one of the connecting rod End is affixed with the backstop, the other end of the connecting rod be provided be engaged with the chute for controlling positive stop upward Dig and turn over downwards the projection fallen.By the cooperation of chute and projection realizing the connection between positive stop, backstop and connecting rod It is dynamic so that positive stop can be dug upwards with sliding back and forth for backstop in the presence of connecting rod and turn over downwards.

Embodiment 3：

The present embodiment and the difference of embodiment 1 or 2 are：Be toothed around on the positive stop, one end of the connecting rod with The backstop is affixed, and the other end of the connecting rod is provided with being used for of being engaged with the gear teeth and controls positive stop to dig upwards And the rack fallen is turned over downwards.By the cooperation of the gear teeth and rack to realize the linkage between positive stop, backstop and connecting rod, make Obtaining positive stop can dig upwards with sliding back and forth for backstop in the presence of connecting rod and turn over downwards.

What the word " on ", " under " in description orientation, "left", "right" etc. were for explanation used by herein facilitates base For orientation in accompanying drawing shown in drawing, in actual device these orientation may due to device disposing way and It is different.

In summary, embodiment of the present invention only provides a kind of optimal embodiment, in technology of the invention Hold and technical characterstic has revealed that as above, but one skilled in the art scholar is still potentially based on disclosed content and made Various replacements and modification without departing substantially from creation spirit of the present invention；Therefore, protection scope of the present invention is not limited to disclosed in embodiment Technology contents, therefore equivalence changes that all shape under this invention, construction and principle are done, be encompassed by the protection model of the present invention In enclosing.

Claims (9)

1. A kind of 1. positioner for liquid crystal module detection and localization, it is characterised in that：The positioner includes bottom plate, fixed Module supporting plate on the bottom plate and the link gear being arranged on the bottom plate；

   The link gear include can be slid back and forth relative to the bottom plate backstop, can be dug upwards relative to the bottom plate Positive stop and the connecting rod that is arranged between the backstop and the positive stop；The positive stop is provided with and the module support The corresponding baffle plate of the module chamber of plate；

   When block slides backward in the rear, driven by connecting rod, the positive stop is dug upwards relative to the bottom plate；Institute When stating backstop forward slip, driven by connecting rod, the positive stop is by downward relative to the bottom plate in upward tip-up state Turn over.
2. A kind of 2. positioner for liquid crystal module detection and localization according to claim 1, it is characterised in that：It is preferred that , the bottom plate is provided with crank-guide way, and the connecting rod is arranged in the crank-guide way.
3. A kind of 3. positioner for liquid crystal module detection and localization according to claim 1, it is characterised in that：It is preferred that , the connecting rod is arranged on the bottom plate below the module supporting plate, and the bottom plate is provided with crank-guide way, and the connecting rod is arranged on In the crank-guide way.
4. A kind of 4. positioner for liquid crystal module detection and localization according to claim 1, it is characterised in that：It is preferred that , the positive stop is arranged on the bottom plate by shaft seat, and the bottom surface of the positive stop is provided with the first magnetite, described turn Axle bed is provided with the second magnetite corresponding with the first magnetite location matches, the polarity of first magnetite and second magnetic The polarity of stone is identical；

   One end of the connecting rod and the backstop are affixed, and the other end of the connecting rod is provided with what is be engaged with the positive stop The wedge fallen for controlling positive stop to turn over downwards.
5. A kind of 5. positioner for liquid crystal module detection and localization according to claim 4, it is characterised in that：It is preferred that , the bottom surface of the positive stop, which is provided with being used for of being engaged with the wedge, makes positive stop turn over the cushion block fallen downwards.
6. A kind of 6. positioner for liquid crystal module detection and localization according to claim 1, it is characterised in that：It is preferred that , the bottom surface of the positive stop is provided with a chute, and one end of the connecting rod and the backstop are affixed, the connecting rod it is another End is provided with being used for of being engaged with the chute and controls positive stop to dig upwards and turn over the projection fallen downwards.
7. A kind of 7. positioner for liquid crystal module detection and localization according to claim 1, it is characterised in that：It is preferred that , it is toothed around on the positive stop, one end of the connecting rod and the backstop are affixed, and the other end of the connecting rod is provided with Being used for of being engaged with the gear teeth controls positive stop to dig upwards and turn over the rack fallen downwards.
8. A kind of 8. positioner for liquid crystal module detection and localization according to claim 1, it is characterised in that：It is preferred that , spacing protrusive board is additionally provided with the backstop.
9. A kind of 9. positioner for liquid crystal module detection and localization according to claim 1, it is characterised in that：It is preferred that , the backstop is located at the rear end of the module supporting plate, and the baffle plate is oppositely arranged on the front end of the module chamber.