CN103529248A - Lamination structure and test jig using same - Google Patents

Abstract

The invention provides a lamination structure and a test jig using the lamination structure. The lamination structure comprises a base, as well as a lamination plate and a lamination plate drive mechanism which are mounted on the base, wherein the lamination plate moves close to or far away from the base by the action of the drive mechanism; when the lamination plate is contacted with the base, the drive mechanism enters into a locking state, so that the lamination plate and the base keep a contact state; and lamination is realized. According to the lamination structure and the test jig using the lamination structure, a drive block is matched with a drive plate for use, so that the lamination structure has a self-locking function; the test jig using the lamination structure can liberate both hands of an operator; the one-to-many operation can be realized; the working efficiency is effectively improved; and the lamination structure is simple in structure, convenient to operate and lower in cost.

Description

Pressing structure and use the measurement jig of this pressing structure

Technical field

The present invention relates to a kind of pressing structure, relate in particular to a kind of pressing structure with automatic locking function and use the measurement jig of this pressing structure.

Background technology

Laminating mechanism is often applied to field tests, especially at electric field, such as, the test of flexible circuit board, by pressing structure, flexible circuit board is pressed on test block, this flexible circuit board is electrically connected to test block, and then the problem such as tests this flexible circuit board and whether have short circuit, open circuit.

Existing press fit device is after pressing flexible circuit board and test block, generally need to continue to press, to avoid loose contact, and the operation that continues to press is generally by manual realization, this just causes having at least a hand can not leave this press fit device when flexible circuit board is tested, can only realize man-to-man test, testing efficiency is lower, and cost is higher.

Summary of the invention

The object of the present invention is to provide a kind of pressing structure, it effectively guarantees pressing effect with auto-lock function, and simple in structure, easy to operate, and cost is low.

Another object of the present invention is to provide a kind of measurement jig, it is simple in structure, and cost is low, can effectively detect FPC, and detection efficiency is higher.

For achieving the above object, the invention provides a kind of pressing structure, comprise: pedestal, be installed on force fit plate and force fit plate driving mechanism on pedestal, described force fit plate under the effect of driving mechanism near or away from pedestal, move, when described force fit plate contacts with pedestal, described driving mechanism enters locked state, makes described force fit plate and pedestal keep in touch state, and then realizes pressing.

Described pedestal comprise base plate, the top board relative with base plate and be located at base plate and top board between two side plates, these two side plates are oppositely arranged; Described driving mechanism comprises: drive plate, connect drive plate and force fit plate guide pillar, drive the drive block of described drive plate and drive the handle of described drive block, described top board is located between described force fit plate and drive plate, described guide pillar runs through this top board; During pressing, turning handle is to rotate described drive block, and drive block promotes described drive plate and moves towards base plate, and drive plate drives described force fit plate to move towards top board by guide pillar, and finally contacts with top board.

Described drive block has vertical side, ,Yu bottom surface, bottom surface and connects the cambered surface of bottom surface and side; During original state, described drive plate contacts with the bottom surface of drive block, when turning handle, described cambered surface contacts with drive plate and promotes drive plate and moves towards base plate, when rotation to described drive block side contacts with drive plate, between described drive block and drive plate, be two plane contact, enter locked state.

The cambered surface position of described drive block is provided with a roller, and when described drive block drives described drive plate when base plate moves, the relatively described drive plate of described roller rolls.

Also comprise back-moving spring, described back-moving spring is sheathed on guide pillar between force fit plate and top board; Under locked state, reverse rotation handle, remove the locked state between drive block and drive plate, under the elastic force effect of back-moving spring, described force fit plate moves towards the direction away from top board, and then drives described drive plate to move towards the direction away from base plate, and drive plate promotes described drive block and rotates, contact with the bottom surface of drive block to drive plate, reply original state.

The present invention also provides a kind of measurement jig, comprise: pedestal, be installed on force fit plate and force fit plate driving mechanism on pedestal, described pedestal is provided with the first storage tank, the second storage tank, testing circuit board and an interface, this first storage tank is for accommodating display panels, the second storage tank is for accommodating FPC, FPC is electrically connected at described testing circuit board by interface, described force fit plate is for pressing together FPC and display panels, this FPC and display panels are electrically connected, to realize the test to FPC, described force fit plate under the effect of driving mechanism near or away from pedestal, move, when described force fit plate presses together FPC and display panels, described driving mechanism enters locked state.

Described pedestal comprise base plate, the top board relative with base plate and be located at base plate and top board between two side plates, these two side plates are oppositely arranged, described base plate, top board and two side plates form an accommodation space, described testing circuit board is placed in this accommodation space; Described the first storage tank, the second storage tank and interface are all located on described top board; Described driving mechanism comprises: drive plate, connect drive plate and force fit plate guide pillar, drive the drive block of described drive plate and drive the handle of described drive block, described top board is located between described force fit plate and drive plate, described guide pillar runs through this top board; During pressing, turning handle is to rotate described drive block, and drive block promotes described drive plate and moves towards base plate, and drive plate drives described force fit plate to move towards top board by guide pillar, and finally contact with top board, and then FPC and display panels are pressed together.

Described drive block has vertical side, ,Yu bottom surface, bottom surface and connects the cambered surface of bottom surface and side; During original state, described drive plate contacts with the bottom surface of drive block, when turning handle, described cambered surface contacts with drive plate and promotes drive plate and moves towards base plate, when rotation to described drive block side contacts with drive plate, between described drive block and drive plate, be two plane contact, enter locked state.

The cambered surface position of described drive block is provided with a roller, and when described drive block drives described drive plate when base plate moves, the relatively described drive plate of described roller rolls.

Also comprise back-moving spring, described back-moving spring is sheathed on guide pillar between force fit plate and top board; Under locked state, reverse rotation handle, remove the locked state between drive block and drive plate, under the elastic force effect of back-moving spring, described force fit plate moves towards the direction away from top board, and then drives described drive plate to move towards the direction away from base plate, and drive plate promotes described drive block and rotates, contact with the bottom surface of drive block to drive plate, reply original state.

Beneficial effect of the present invention: pressing structure of the present invention and use the measurement jig of this pressing structure, by being used in conjunction with of drive block and drive plate, make this pressing structure there is auto-lock function, and then the measurement jig that makes this pressing structure both hands that can liberate operator, can realize the operation of one-to-many, effectively increase work efficiency, and, this pressing structure simple in structure, easy to operate, cost is also lower.

In order further to understand feature of the present invention and technology contents, refer to following about detailed description of the present invention and accompanying drawing, yet accompanying drawing only provide with reference to and explanation use, be not used for the present invention to be limited.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, by the specific embodiment of the present invention is described in detail, will make technical scheme of the present invention and other beneficial effect apparent.

In accompanying drawing,

Fig. 1 is the structural representation of pressing structure original state of the present invention;

Fig. 2 is the structural representation of pressing structure self-locking state of the present invention;

Fig. 3 is the three-dimensional cross-sectional view of pressing structure drive block of the present invention;

Fig. 4 is the spatial structure decomposing schematic representation of measurement jig of the present invention.

Embodiment

Technological means and the effect thereof for further setting forth the present invention, taked, be described in detail below in conjunction with the preferred embodiments of the present invention and accompanying drawing thereof.

Refer to Fig. 1 to Fig. 3, the invention provides a kind of pressing structure, comprise: pedestal 2, be installed on force fit plate 4 on pedestal 2 and the driving mechanism 6 of force fit plate 4, described force fit plate 4 under the effect of driving mechanism 6 near or away from pedestal 2, move, when described force fit plate 4 contacts with pedestal 2, described driving mechanism 6 enters locked state, makes described force fit plate 4 keep in touch state with pedestal 2, and then realizes long pressing.

Particularly, described pedestal 2 comprise base plate 22, the top board 24 relative with base plate 22 and be located at base plate 22 and top board 24 between two side plates 26, these two side plates 26 are oppositely arranged, this base plate 22, top board 24 and side plate 26 form accommodation spaces 246.

Described driving mechanism 6 comprises: drive plate 62, connect drive plate 62 and force fit plate 4 guide pillar 64, drive the drive block 66 of described drive plate 62 and drive the handle 68 of described drive block 66, described top board 24 is located between described force fit plate 4 and drive plate 62, and described guide pillar 64 runs through this top board 24; Described drive block 66 is located in described accommodation space 246, and described handle 68 is connected in this drive block 66 through side plate 26; During pressing, turning handle 68 is to rotate described drive block 66, and drive block 66 promotes described drive plate 62 and moves towards base plate 22, and drive plate 62 drives described force fit plate 4 to move towards top board 24 by guide pillar 64, and finally contacts with top board 24, to realize pressing action.

Further, described drive block 66 has the cambered surface 666 of vertical side 664,662,Yu bottom surface, bottom surface 662 and connection 662Yu side, bottom surface 664, before pressing, described drive plate 62 contacts with the bottom surface 662 of drive block 66, is at this moment two contacts between plane, in equilibrium state, is defined as original state here, during pressing, turning handle 68, the corresponding rotation of described drive block 66, at this moment described cambered surface 666 contacts with drive plate 62 and promotes drive plate 62 and moves towards base plate, guide effect due to cambered surface 666, described drive block 66 is rotated further, when described force fit plate 4 contacts with top board 24, described drive block 66 just rotates to described side 664 and contacts with drive plate 64, now, between described drive block 66 and drive plate 62, be two plane contact, enter next equilibrium state, this equilibrium state make described pressing structure in and keep stitching state, here be defined as locked state.In practical operation, can adjust according to actual conditions the size of 662, side, bottom surface 664, cambered surface 666 and the guide pillar 64 of described drive block 66, to realize, when contacting with top board 24, force fit plate 4 just enters locked state.

Preferably, cambered surface 666 positions of described drive block 66 are provided with a roller 668, when described drive block 66 drives described drive plate 62 when base plate 22 moves, the relatively described drive plate 62 of described roller 668 rolls, the transformation sliding friction of take is rolling friction, reduce friction, to increase the service life.

It is worth mentioning that, pressing structure of the present invention also comprises back-moving spring 8, and described back-moving spring 8 is sheathed on guide pillar 64 between force fit plate 4 and top board 24; Under locked state, reverse rotation handle 68, remove the locked state between drive block 66 and drive plate 62, under the elastic force effect of back-moving spring 8, described force fit plate 4 moves towards the direction away from top board 24, and then drives described drive plate 62 to move towards the direction away from base plate 22, and drive plate 62 promotes described drive block 66 and rotates, contact with the bottom surface 662 of drive block 66 to drive plate 62, reply original state.

Refer to Fig. 4, and referring to figs. 1 to Fig. 3, the present invention also provides a kind of measurement jig, comprise: pedestal 2, be installed on force fit plate 4 on pedestal 2 and the driving mechanism 6 of force fit plate 4, described pedestal 2 is provided with the first storage tank 21, the second storage tank 23, testing circuit board (not shown) and an interface (not shown), this first storage tank 21 is for accommodating display panels (not shown), the second storage tank 23 is for accommodating FPC (not shown), FPC is electrically connected at described testing circuit board by interface, described force fit plate 4 is for pressing together FPC and display panels, this FPC and display panels are electrically connected, to realize the test to FPC, described force fit plate 4 under the effect of driving mechanism 6 near or away from pedestal 2, move, when described force fit plate 4 presses together FPC and display panels, described driving mechanism 6 enters locked state.

Particularly, described pedestal 2 comprise base plate 22, the top board 24 relative with base plate 22 and be located at base plate 22 and top board 24 between two side plates 26, these two side plates 26 are oppositely arranged, this base plate 22, top board 24 and side plate 26 form an accommodation space 246, and described testing circuit board is placed in this accommodation space 246.

Described driving mechanism 6 comprises: drive plate 62, connect drive plate 62 and force fit plate 4 guide pillar 64, drive the drive block 66 of described drive plate 62 and drive the handle 68 of described drive block 66, described top board 24 is located between described force fit plate 4 and drive plate 62, and described guide pillar 64 runs through this top board 24; Described drive block 66 is located in described accommodation space 246, and described handle 68 is connected in this drive block 66 through side plate 26; During pressing, turning handle 68 is to rotate described drive block 66, drive block 66 promotes described drive plate 62 and moves towards base plate 22, drive plate 62 drives described force fit plate 4 to move towards top board 24 by guide pillar 64, and finally contact with top board 24, and then FPC and display panels are pressed together.

Further, described drive block 66 has the cambered surface 666 of vertical side 664,662,Yu bottom surface, bottom surface 662 and connection 662Yu side, bottom surface 664, before pressing, described drive plate 62 contacts with the bottom surface 662 of drive block 66, is at this moment two contacts between plane, in equilibrium state, is defined as original state here, during pressing, turning handle 68, the corresponding rotation of described drive block 66, at this moment described cambered surface 666 contacts with drive plate 62 and promotes drive plate 62 and moves towards base plate, guide effect due to cambered surface 666, described drive block 66 is rotated further, when described force fit plate 4 contacts with top board 24, described drive block 66 just rotates to described side 664 and contacts with drive plate 64, now, between described drive block 66 and drive plate 62, be two plane contact, enter next equilibrium state, this equilibrium state make described measurement jig in and keep stitching state, here be defined as locked state.In practical operation, can adjust according to actual conditions the size of 662, side, bottom surface 664, cambered surface 666 and the guide pillar 64 of described drive block 66, to realize, when contacting with top board 24, force fit plate 4 just enters locked state.

Preferably, cambered surface 666 positions of described drive block 66 are provided with a roller 668, when described drive block 66 drives described drive plate 62 when base plate 22 moves, the relatively described drive plate 62 of described roller 668 rolls, the transformation sliding friction of take is rolling friction, reduce friction, to increase the service life.

It is worth mentioning that, measurement jig of the present invention also comprises back-moving spring 8, and described back-moving spring 8 is sheathed on guide pillar 64 between force fit plate 4 and top board 24; Under locked state, reverse rotation handle 68, remove the locked state between drive block 66 and drive plate 62, under the elastic force effect of back-moving spring 8, described force fit plate 4 moves towards the direction away from top board 24, and then drives described drive plate 62 to move towards the direction away from base plate 22, and drive plate 62 promotes described drive block 66 and rotates, contact with the bottom surface 662 of drive block 66 to drive plate 62, reply original state.

In sum, pressing structure of the present invention and use the measurement jig of this pressing structure, by being used in conjunction with of drive block and drive plate, make this pressing structure there is auto-lock function, and then the both hands that make the measurement jig of this pressing structure can liberate operator, can realize the operation of one-to-many, effectively increase work efficiency, and, this pressing structure simple in structure, easy to operate, cost is also lower.

The above, for the person of ordinary skill of the art, can make other various corresponding changes and distortion according to technical scheme of the present invention and technical conceive, and all these changes and distortion all should belong to the protection domain of the claims in the present invention.

Claims (10)

1. a pressing structure, how its feature is, comprise: pedestal, be installed on force fit plate and force fit plate driving mechanism on pedestal, described force fit plate under the effect of driving mechanism near or away from pedestal, move, when described force fit plate contacts with pedestal, described driving mechanism enters locked state, makes described force fit plate and pedestal keep in touch state, and then realizes pressing.

2. pressing structure as claimed in claim 1, is characterized in that, described pedestal comprise base plate, the top board relative with base plate and be located at base plate and top board between two side plates, these two side plates are oppositely arranged; Described driving mechanism comprises: drive plate, connect drive plate and force fit plate guide pillar, drive the drive block of described drive plate and drive the handle of described drive block, described top board is located between described force fit plate and drive plate, described guide pillar runs through this top board; During pressing, turning handle is to rotate described drive block, and drive block promotes described drive plate and moves towards base plate, and drive plate drives described force fit plate to move towards top board by guide pillar, and finally contacts with top board.

3. pressing structure as claimed in claim 2, is characterized in that, described drive block has vertical side, ,Yu bottom surface, bottom surface and connects the cambered surface of bottom surface and side; During original state, described drive plate contacts with the bottom surface of drive block, when turning handle, described cambered surface contacts with drive plate and promotes drive plate and moves towards base plate, when rotation to described drive block side contacts with drive plate, between described drive block and drive plate, be two plane contact, enter locked state.

4. pressing structure as claimed in claim 3, is characterized in that, the cambered surface position of described drive block is provided with a roller, and when described drive block drives described drive plate when base plate moves, the relatively described drive plate of described roller rolls.

5. pressing structure as claimed in claim 3, is characterized in that, also comprises back-moving spring, and described back-moving spring is sheathed on guide pillar between force fit plate and top board; Under locked state, reverse rotation handle, remove the locked state between drive block and drive plate, under the elastic force effect of back-moving spring, described force fit plate moves towards the direction away from top board, and then drives described drive plate to move towards the direction away from base plate, and drive plate promotes described drive block and rotates, contact with the bottom surface of drive block to drive plate, reply original state.

6. a measurement jig, it is characterized in that, comprise: pedestal, be installed on force fit plate and force fit plate driving mechanism on pedestal, described pedestal is provided with the first storage tank, the second storage tank, testing circuit board and an interface, this first storage tank is for accommodating display panels, the second storage tank is for accommodating FPC, FPC is electrically connected at described testing circuit board by interface, described force fit plate is for pressing together FPC and display panels, this FPC and display panels are electrically connected, to realize the test to FPC, described force fit plate under the effect of driving mechanism near or away from pedestal, move, when described force fit plate presses together FPC and display panels, described driving mechanism enters locked state.

7. measurement jig as claimed in claim 6, it is characterized in that, described pedestal comprise base plate, the top board relative with base plate and be located at base plate and top board between two side plates, these two side plates are oppositely arranged, described base plate, top board and two side plates form an accommodation space, and described testing circuit board is placed in this accommodation space; Described the first storage tank, the second storage tank and interface are all located on described top board; Described driving mechanism comprises: drive plate, connect drive plate and force fit plate guide pillar, drive the drive block of described drive plate and drive the handle of described drive block, described top board is located between described force fit plate and drive plate, described guide pillar runs through this top board; During pressing, turning handle is to rotate described drive block, and drive block promotes described drive plate and moves towards base plate, and drive plate drives described force fit plate to move towards top board by guide pillar, and finally contact with top board, and then FPC and display panels are pressed together.

8. measurement jig as claimed in claim 7, is characterized in that, described drive block has vertical side, ,Yu bottom surface, bottom surface and connects the cambered surface of bottom surface and side; During original state, described drive plate contacts with the bottom surface of drive block, when turning handle, described cambered surface contacts with drive plate and promotes drive plate and moves towards base plate, when rotation to described drive block side contacts with drive plate, between described drive block and drive plate, be two plane contact, enter locked state.

9. measurement jig as claimed in claim 8, is characterized in that, the cambered surface position of described drive block is provided with a roller, and when described drive block drives described drive plate when base plate moves, the relatively described drive plate of described roller rolls.

10. measurement jig as claimed in claim 8, is characterized in that, also comprises back-moving spring, and described back-moving spring is sheathed on guide pillar between force fit plate and top board; Under locked state, reverse rotation handle, remove the locked state between drive block and drive plate, under the elastic force effect of back-moving spring, described force fit plate moves towards the direction away from top board, and then drives described drive plate to move towards the direction away from base plate, and drive plate promotes described drive block and rotates, contact with the bottom surface of drive block to drive plate, reply original state.

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