CN209208062U - A kind of semi-automatic crimper for FFC - Google Patents

Abstract

The utility model relates to bending equipment technical field, especially a kind of semi-automatic crimper for FFC.It includes rack, loading assemblies, conveying assembly, foldable component and transfer component；Conveying assembly includes delivery platform, compresses platform and compression cylinder, and conveyor belt is provided on delivery platform, compresses and is provided with compression belt on platform.The utility model is driven by compression cylinder compresses platform towards the progress elevating movement of delivery platform direction, the compression belt being arranged on platform to enable the FFC conveyed in conveyor belt to be compacted compresses, prevent FFC from generating excessive offset during conveying, it can guarantee that FFC is accurately transported on foldable component and carry out bending operation, and then can guarantee yield rate of the FFC in bending process.The apparatus structure is simple, can effectively improve the yield rate of FFC bending, be convenient for industrialized production, and has very strong practical value and market popularization value.

Description

A kind of semi-automatic crimper for FFC

Technical field

The utility model relates to bending equipment technical field, especially a kind of semi-automatic crimper for FFC.

Background technique

FFC (Flexible Flat Cable), also known as FFC flexible flat cable are a kind of PET insulating materials and pole Thin tin plating flat copper wire.The connection being now widely used between various printer port of printer and mainboard, plotter, scanning The signal of the products such as instrument, duplicator, sound equipment, liquid crystal electric appliance, facsimile machine, various video disc players transmits and the connection of plate plate.

For the demand for adapting to product, FFC usually requires to use by bending.Needed before to FFC bending to FFC into Row positioning, and can be only achieved requirement since existing FFC generally requires bending twice, thus during FFC bending, Need to fully ensure that the accuracy of FFC transfer position；Existing FFC bending machine, during FFC bending often by Upper and lower two pressing rollers convey FFC, and are easy to make FFC defeated by the FFC after the conveying positioning of upper and lower two pressing rollers Scheduled position is deviated during sending, and then leads to the position of FFC bending there is a certain error, will have a direct impact on when serious To the use of FFC.

Therefore, it is necessary to propose that improvement project is mentioned to guarantee the accuracy of FFC bending position to existing FFC bending machine Yield rate of the high FFC in bending process.

Utility model content

In view of the deficiency of the prior art, the purpose of this utility model is to provide it is a kind of for FFC half from Dynamic crimper.

To achieve the goals above, the utility model adopts the following technical solution:

A kind of semi-automatic crimper for FFC, it includes rack, is set in rack for loading the feeding group of FFC Part is placed in after loading assemblies for being used for after conveying the conveying assembly of FFC, being placed in conveying assembly by the foldable component of FFC bending And it is set to the transfer group between loading assemblies and conveying assembly for being transferred to the FFC on loading assemblies on conveying assembly Part；

The conveying assembly include the delivery platform being fixed in rack, the compression platform being set to above delivery platform and For driving the compression cylinder for compressing platform and carrying out elevating movement, the conveying for conveying FFC is provided on the delivery platform Belt, it is described to compress the compression belt being provided on platform for compressing FFC in conveyor belt.

Preferably, the loading assemblies include being set to the bearing seat above rack, the magazine for placing FFC and setting In the clamp system for being used to clamp magazine on bearing seat；The clamp system includes being fixed on bearing seat along FFC conveying direction Two bearing supports arranged in parallel, be set between two bearing supports and be parallel to each other with two bearing supports Two clamping plates, axis turn to be connected on two bearing supports for controlling two clamping plates towards and away from at least one of movement Bidirectional-screw and the more fixing axles for being fixed on two bearing supports and running through two clamping plates, one end of the Bidirectional-screw It is provided with the knob for rotating Bidirectional-screw, the middle part of two clamping plates and the top for being located at Bidirectional-screw and fixing axle It is in the loading plate being dislocatedly distributed that opposite work is formed with after extending respectively, is offered on each clamping plate for another clamping plate On the vacant notch that passes through of loading plate, the magazine is placed on loading plate.

Preferably, the bottom of the one end of the magazine far from conveying assembly is provided with strip limiting through hole, the magazine It is inside provided with the postive stop baffle that can be slided in strip limiting through hole, is provided on the lower end surface of the magazine and postive stop baffle The width of the limit clamping plate of threaded connection, the limit clamping plate is greater than the width of strip limiting through hole.

Preferably, the bearing seat is made to be formed with the reinforcement supporting rib for being used to support magazine, the reinforcement after extending upward The sliding slot with the contraposition cooperation of strip limiting through hole is offered on supporting rib, the limit clamping plate is set in sliding slot.

Preferably, the lower end surface of the postive stop baffle is formed with lug boss after extending towards work in strip limiting through hole, institute Boss is stated in the profile of strip limiting through hole, the postive stop baffle and limit clamping plate pass through the first adjusting screw rod It is threadedly coupled.

Preferably, the foldable component includes the first support frame for being set to conveying assembly exit side, is set to first Clamping device on support for being gripped to FFC and it is set to clamping device exit side and in two groups be distributed up and down Bending mechanism；The clamping device includes upper clamp plate, lower clamp plate, top shoe, sliding block, the first cylinder and the second cylinder, described Upper clamp plate and lower clamp plate are in symmetrical up and down, and the upper clamp plate is fixedly connected on the lower end surface of top shoe, the lower clamp plate It is fixedly connected on the upper surface of sliding block, first cylinder is set as two both ends for driving top shoe and makees synchronous rise Drop movement, second cylinder are set as two both ends for driving sliding block and make the synchronization lifting fortune opposite with top shoe It is dynamic；The bending mechanism includes being slidably connected on the first support frame and being located at the bending bracket of clamping device exit side, axis turn It is set on bending bracket and turns to be set at least two guiding on bending bracket for guiding for the compression bar of bending FFC, axis Bar and for drive bending bracket make up and down straight reciprocating motion third cylinder, the compression bar and guide rod are parallel to each other and set It sets, the every guide rod runs through bending bracket and extends distribution, the left and right of first support frame to the first support frame direction The guide chute matched with the both ends of guide rod is offered on two sidewalls respectively, each guide chute is in vertical straight Line distribution, each guide chute are provided with close to one end of compression bar to the curved arc groove of feed side.

Preferably, the foldable component further includes rotating mechanism, and the rotating mechanism includes the driving being fixed in rack It motor, the rotary drive plate that is fixed in driving motor shaft and is set in rack for controlling driving motor rotation angle Multiple position sensors, first support frame are fixed on rotary drive plate.

Preferably, the transfer component includes the transfer bracket for being set to loading assemblies side, sets along the conveying direction of FFC It is placed in the sliding rail transferred on bracket, the slide plate being set on sliding rail, the 4th cylinder being vertically fixedly connected on slide plate, is set to Transverse plate on the piston rod of 4th cylinder is set on transverse plate for drawing the sucker of FFC and for driving sliding block in water Square the 5th cylinder moved back and forth upwards.

Preferably, the loading assemblies further include the lifting air being fixed in rack for driving bearing seat to move up and down Cylinder, the bearing seat lower end are provided at least two guiding axis along the vertical direction, and the every guiding axis runs through rack and can Opposite housing slide, end wall of the magazine close to conveying assembly one end are set as being open.

Preferably, the second support frame is additionally provided between the loading assemblies and conveying assembly, on second support frame The height of end face and conveyor belt the conveying height of plane of FFC are identical, the top of second support frame and perpendicular to FFC's Limited block is provided on conveying direction, the both ends of the limited block are connected by two second adjusting screw rods and the second support frame screw thread It connects, the gap between the limited block and the second support frame passes through for FFC.

As the above scheme is adopted, the utility model by compression cylinder drive compress platform towards delivery platform direction into Row elevating movement is compressed so that the FFC conveyed in conveyor belt be enable to be compacted the compression belt being arranged on platform, is prevented FFC generates excessive offset during conveying, can guarantee that FFC is accurately transported to progress bending behaviour on foldable component Make, and then can guarantee yield rate of the FFC in bending process.The apparatus structure is simple, can effectively improve FFC bending Yield rate is convenient for industrialized production, and has very strong practical value and market popularization value.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model embodiment；

Fig. 2 is the structural schematic diagram (one) of the conveying assembly of the utility model embodiment；

Fig. 3 is the structural schematic diagram (two) of the conveying assembly of the utility model embodiment；

Fig. 4 is the structural schematic diagram of the loading assemblies of the utility model embodiment；

Fig. 5 is the sectional view of the loading assemblies of the utility model embodiment；

Fig. 6 is the partial enlarged view in Fig. 5 at A；

Fig. 7 is the structural schematic diagram of the clamp system of the utility model embodiment；

Fig. 8 is the decomposition diagram of Fig. 7；

Fig. 9 is the structural schematic diagram (one) of the foldable component of the utility model embodiment；

Figure 10 is the structural schematic diagram (two) of the foldable component of the utility model embodiment；

Figure 11 is the structural schematic diagram of the clamping device of the utility model embodiment；

Figure 12 is the structural schematic diagram of the bending mechanism of the utility model embodiment；

Figure 13 is the structural schematic diagram of the transfer component of the utility model embodiment；

In figure: 10, rack；11, the second support frame；12, limited block；13, the second adjusting screw rod；

20, loading assemblies；21, bearing seat；211, reinforce supporting rib；22, magazine；221, postive stop baffle；222, position limiting clamp Plate；223, lug boss；224, the first adjusting screw rod；23, clamp system；231, bearing support；232, clamping plate；233, two-way Screw rod；234, fixing axle；235, knob；236, loading plate；24, lifting cylinder；25, guiding axis；

30, conveying assembly；31, delivery platform；32, platform is compressed；33, compression cylinder；34, conveyor belt；35, skin is compressed Band；

40, foldable component；41, the first support frame；42, clamping device；421, upper clamp plate；422, lower clamp plate；423, upper cunning Block；424, sliding block；425, the first cylinder；426, the second cylinder；43, bending mechanism；431, bending bracket；432, compression bar； 433, guide rod；434, third cylinder；44, rotating mechanism；441, driving motor；442, rotary drive plate；443, position sensing Device；

50, component is transferred；51, bracket is transferred；52, sliding rail；53, slide plate；54, the 4th cylinder；55, transverse plate；56, it inhales Disk；57, the 5th cylinder；

A, vacant notch；B, strip limiting through hole；C, sliding slot；D, guide chute.

Specific embodiment

The embodiments of the present invention are described in detail below in conjunction with attached drawing, but the utility model can be by right It is required that the multitude of different ways for limiting and covering is implemented.

As shown in figure 1 to figure 13, a kind of semi-automatic crimper for FFC provided by the embodiment of the utility model, it is wrapped Including rack 10 is set in rack 10 for being used to convey FFC's after loading the loading assemblies 20 of FFC, being placed in loading assemblies 20 Conveying assembly 30 is used for the foldable component 40 of FFC bending after being placed in conveying assembly 30 and is set to loading assemblies 20 and conveying Transfer component 50 between component 30 for being transferred to the FFC on loading assemblies 20 on conveying assembly 30；Conveying assembly 30 wraps The delivery platform 31 being fixed in rack 10 is included, the compression platform 32 of 31 top of delivery platform is set to and is put down for driving to compress Platform 32 carries out the compression cylinder 33 of elevating movement, and the conveyor belt 34 for conveying FFC is provided on delivery platform 31, compresses The compression belt 35 for compressing FFC in conveyor belt 34 is provided on platform 32.Based on the above structure setting, the work of the present apparatus It is as follows to make principle: the FFC loaded on loading assemblies 20 is transferred on conveying assembly 30 by transfer component 50, and conveying assembly 30 is again FFC is delivered on foldable component 40 and carries out bending operation；It is controlled using compression cylinder 33 and compresses platform 32 towards delivery platform 31 Direction decline makes FFC to allow the compression belt 35 on compression platform 32 during conveyor belt 34 conveys FFC It is tightly attached in conveyor belt 34, prevents FFC from deviating predetermined position during conveying, to ensure that defeated by conveying assembly 30 The accuracy of position when carrying out bending operation to foldable component 40 is sent, and then can be improved the yield rate of FFC bending；When FFC exists (the FFC bending on foldable component 40 is delivered to by conveyor belt 34 to complete), recycle after the completion of conveying in conveyor belt 34 The control of compression cylinder 33 compresses platform 32 far from delivery platform 31 (i.e. the control of compression cylinder 33 compresses platform 32 and rises), thus The FFC loaded on loading assemblies 20 will be transferred on conveying assembly 30 convenient for transfer component 50.Based on this, the apparatus structure is simple Single, bending position is accurate, can effectively improve the yield rate of FFC bending, be convenient for industrialized production, and has very strong practical valence Value and market popularization value.

For the ease of the installation and fixation of magazine 22, preferably, the loading assemblies 20 of the present embodiment include being set to machine It the bearing seat 21 of the top of frame 10, the magazine 22 for placing FFC and is set on bearing seat 21 for clamping the clamping of magazine 22 Mechanism 23；Clamp system 23 includes two carrying branch arranged in parallel being fixed on bearing seat 21 along FFC conveying direction Frame 231, two clamping plates 232, the axis for being set between two bearing supports 231 and being parallel to each other with two bearing supports 231 Turn to be connected to the two-way silk of at least one on two bearing supports 231 for controlling two clamping plates 232 towards and away from movement Bar 233 and the more fixing axles 234 for being fixed on two bearing supports 231 and running through two clamping plates 232, Bidirectional-screw 233 One end be provided with the knob 235 for rotating Bidirectional-screw 233, the middle part of two clamping plates 232 and be located at Bidirectional-screw 233 Making to be formed with after extending respectively in opposite directions with the top of fixing axle 234 is in the loading plate 236 being dislocatedly distributed, on each clamping plate 232 The vacant notch a passed through for the loading plate 236 on another clamping plate 232 is offered, magazine 22 is placed on loading plate 236. As a result, when needing to carry out bending operation to FFC, it is necessary first to which the magazine 22 for being mounted with FFC is placed on loading plate 236； First turning knob 235 is needed to make Bidirectional-screw 233 that two 232 back movements of clamping plate be driven to press from both sides until two before placing magazine 22 The distance between tight plate 232 can feed box 22 be put into；After magazine 22 is placed on loading plate 236, then rotate backward knob 235 Bidirectional-screw 233 is set to drive two clamping plates 232 to move toward one another until magazine 22 is clamped between two magazines 22；Two carryings Plate 236 is made to be formed after extending in opposite directions and in being dislocatedly distributed by the middle part of two clamping plates 232 respectively, on each clamping plate 232 Offer the vacant notch a passed through for the loading plate 236 on another clamping plate 232, thus two loading plates 236 may pass through with Its corresponding vacant notch a, when Bidirectional-screw 233 being made to control two clamping plates 232 towards and away from movement, two loading plates The 236 also opposite slidings in vacant notch a therewith；Drive two clamping plates 232 towards and away from fortune by Bidirectional-screw 233 It is dynamic, it is ensured that symmetrical centre is constant always in the process of movement for two clamping plates 232, so that it is guaranteed that magazine 22 is when clamping Position be in the middle positions of two bearing supports 231 always, and then transfer FFC from magazine 22 convenient for transfer component 50.

For the ease of being limited to the FFC loaded in magazine 22, preferably, the magazine 22 of the present embodiment is far from defeated The bottom of one end of sending component 30 is provided with strip limiting through hole b, and being provided in magazine 22 can be in strip limiting through hole b The postive stop baffle 221 of sliding is provided with the limit clamping plate 222 being threadedly coupled with postive stop baffle 221 on the lower end surface of magazine 22, limits The width of position clamping plate 222 is greater than the width of strip limiting through hole b.Since the length of FFC changes with demand, for maximum limit The versatility of the raising magazine 22 of degree needs the length setting long enough magazine 22 to adapt to for the FFC of same width The FFC of different length；Thus, it is desirable to which postive stop baffle 221 is arranged in magazine 22, magazine 22 is limited by postive stop baffle 221 The position of interior FFC；By unscrewing or tightening postive stop baffle 221 and limit the threaded connection between clamping plate 222, so as to non- Postive stop baffle 221 is often easily set to slide or be fixed on the somewhere of strip limiting through hole b on strip limiting through hole b, To play the role of limit to the FFC being loaded into magazine 22.

For the ease of supporting magazine 22, preferably, the bearing seat 21 of the present embodiment is made to be formed with after extending upward It is used to support the reinforcement supporting rib 211 of magazine 22, reinforces offering on supporting rib 211 and strip limiting through hole b contraposition cooperation Sliding slot c, limit clamping plate 222 be set in sliding slot c.Since the length of magazine 22 is typically designed long, it is significantly longer than folder The length of tight plate 232, thus only by two clamping plates 232 clamp magazine 22 and not can guarantee magazine 22 and be steadily clamped in Between two clamping plates 232；Make to be formed with the reinforcement branch for being used to support magazine 22 after extending upward by bearing seat 21 as a result, Muscle 211 is supportted, can be played a supporting role to magazine 22, limit clamping plate 222 is set in sliding slot c, to guarantee that magazine 22 can It is horizontally placed in and reinforces on supporting rib 211.

It is slided in strip limiting through hole b for the ease of postive stop baffle 221, preferably, the limiting block of the present embodiment The lower end surface of plate 221 is formed with lug boss 223 after extending towards work in strip limiting through hole b, and lug boss 223 is located at strip In the profile of limiting through hole b, postive stop baffle 221 and limit clamping plate 222 are threadedly coupled by the first adjusting screw rod 224.By This, there is lug boss 223 in the lower end of postive stop baffle 221 towards elongation moulding in strip limiting through hole b, and lug boss 223 is located at strip In the profile of shape limiting through hole b, consequently facilitating postive stop baffle 221 slides in strip limiting through hole b；Pass through first Adjusting screw rod 224 can very easily make postive stop baffle 221 mutually unscrew or tighten with limit clamping plate 222, consequently facilitating limit Position baffle 221 is slided or is fixed in strip limiting through hole b.

In order to make FFC carry out bending on foldable component 40, preferably, the foldable component 40 of the present embodiment includes setting It is placed in the first support frame 41 of 30 exit side of conveying assembly, is set on the first support frame 41 for being gripped to FFC Clamping device 42 and be set to 42 exit side of clamping device and in two groups of bending mechanisms 43 being distributed up and down；Clamping device 42 wraps Include upper clamp plate 421, lower clamp plate 422, top shoe 423, sliding block 424, the first cylinder 425 and the second cylinder 426, upper clamp plate 421 With lower clamp plate 422 in up and down it is symmetrical, upper clamp plate 421 is fixedly connected on the lower end surface of top shoe 423, lower clamp plate 422 It is fixedly connected on the upper surface of sliding block 424, the first cylinder 425 is set as two for driving the both ends of top shoe 423 to make Synchronization lifting movement, it is opposite with top shoe 423 that the second cylinder 426 is set as two both ends works for driving sliding block 424 Synchronization lifting movement；Bending mechanism 43 includes the folding for being slidably connected on the first support frame 41 and being located at 42 exit side of clamping device Curved bracket 431, axis turn to be set to and turn to be set to bending bracket 431 for the compression bar 432 of bending FFC, axis on bending bracket 431 For at least two guide rods 433 of guiding and for driving bending bracket 431 to make the third cylinder of upper and lower straight reciprocating motion 434, compression bar 432 and guide rod 433 are arranged in parallel, and every guide rod 433 is supported through bending bracket 431 to first 41 direction of frame extends distribution, offers on the left and right sides wall of the first support frame 41 and matches with the both ends of guide rod 433 respectively The guide chute d, each guide chute d of conjunction are in vertical lines distribution, and each guide chute d is set close to one end of compression bar 432 It is equipped with to the curved arc groove of feed side.The first cylinder 425 and the second cylinder 426 control upper clamp plate 421 and lower folder are utilized as a result, The opposite release of plate 422 and clamping, in order to FFC be fixed on 421 He of upper clamp plate when FFC is delivered to clamping device 42 Between lower clamp plate 422, in order to carry out bending to FFC；Recycle two groups of bending mechanisms 43 respectively with upper clamp plate 421 and lower clamp plate 422 cooperation completion bends FFC upward or downward；For being installed in the bending mechanism 43 of 42 downside of clamping device, utilize Third cylinder 434 drives guide rod 433 to move upwards, the guide chute d for being distributed every guide rod 433 each along vertical lines The top until guide chute d is moved upwards, compression bar 432 is just at 422 clamping position of upper clamp plate 421 and lower clamp plate at this time Place；When third cylinder 434 continues that guide rod 433 is driven to move upwards, the guide rod 433 being located above can be along guide chute d It sideling moves upwards and (is slided close to what one end of compression bar 432 was arranged to the curved arc groove of feed side along guide chute d), So that compression bar 432 is towards certain pressure is applied to FFC on the direction of feed side, consequently facilitating by FFC bending forming.Similarly, it fills The mutual cooperation of bending mechanism 43 on the upside of the exit side of clamping device 42 and clamping device 42, can complete to FFC to Lower bending.

For convenient for determine angle bending to FFC, preferably, the foldable component 40 of the present embodiment further includes rotating mechanism 44, rotating mechanism 44 includes the driving motor 441 being fixed in rack 10, the rotation being fixed in 441 shaft of driving motor biography Movable plate 442 and be set in rack 10 for control driving motor 441 rotate angle multiple position sensors 443, first Support 41 is fixed on rotary drive plate 442.It, can be very square as a result, by adjusting the positional relationship between position sensor 443 Just the angle that control driving motor 441 drives rotary drive plate 442 to rotate, consequently facilitating carrying out determining angle bending to FFC.

To make FFC accurately be transferred to the feed end of conveying assembly 30, preferably, the transfer component 50 of the present embodiment wraps Include be set to 20 side of loading assemblies transfer bracket 51, along FFC conveying direction be set to transfer bracket 51 on sliding rail 52, The slide plate 53 that is set on sliding rail 52, is set to the 4th cylinder 54 at the 4th cylinder 54 being vertically fixedly connected on slide plate 53 Transverse plate 55 on piston rod is set on transverse plate 55 for drawing the sucker 56 of FFC and for driving slide plate 53 in level The 5th cylinder 57 moved back and forth on direction.It is moved downward as a result, using the 4th cylinder 54 driving transverse plate 55, to make to be arranged FFC can be drawn out of magazine 22 in the sucker 56 on transverse plate 55, sucker 56 is connected with external tracheae (not to be shown in figure Out), FFC or it is detached from FFC from sucker 56 so as to control sucker 56 by tracheae and adsorb；5th cylinder 57 is for driving Dynamic slide plate 53 moves back and forth in the horizontal direction, so as to so that the FFC being adsorbed on sucker 56 is transported to specified position (i.e. The feed end of conveying assembly 30).

FFC is drawn from loading assemblies 20 for the ease of sucker 56, preferably, the loading assemblies 20 of the present embodiment also wrap The lifting cylinder 24 being fixed in rack 10 for driving bearing seat 21 to move up and down is included, 21 lower end of bearing seat is along the vertical direction At least two guiding axis 25 are provided with, every guiding axis 25 can be slided through rack 10 and with respect to rack 10, and magazine 22 is close The end wall of 30 one end of conveying assembly is set as being open.As a result, when the FFC arrival in the transfer transfer magazine 22 of component 50 is a certain amount of Afterwards, the sucker 56 on transfer component 50, which needs to extend into certain depth, to draw FFC out of magazine 22, in rack 10 It is provided with the lifting cylinder 24 for driving bearing seat 21 to move up and down, so as to make magazine 22 be lifted certain height, And then FFC is drawn from loading assemblies 20 convenient for sucker 56；Magazine 22 is set as being open close to one end of conveying assembly 30, thus Magazine 22 lifting after height be higher than conveying assembly 30 feed inlet when, transfer component 50 can directly in magazine 22 incite somebody to action FFC is transferred to the feed inlet of conveying assembly 30 from the opening from conveying assembly 30.

In order to which the FFC for being transferred to 30 feed end of conveying assembly to transfer component 50 carries out preliminary positioning, preferably, this The second support frame 11,11 upper surface of the second support frame are additionally provided between the loading assemblies 20 and conveying assembly 30 of embodiment It is identical that height and conveyor belt 34 convey the height of plane of FFC, the top of the second support frame 11 and perpendicular to the conveying side of FFC Limited block 12 is set up, the both ends of limited block 12 are connected by two second adjusting screw rods 13 and 11 screw thread of the second support frame It connects, the gap between limited block 12 and the second support frame 11 passes through for FFC.Pass through the second support frame 11 and limited block as a result, The FFC that gap between 12 can be transferred to 30 feed end of conveying assembly to transfer component 50 carries out Primary Location, can pass through Adjust two second adjusting screw rods 13 come adjust the gap between the second support frame 11 and limited block 12 in order to make FFC from Pass through at gap.

The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, Equivalent structure or equivalent flow shift made by using the description of the utility model and the drawings, is directly or indirectly transported Used in other related technical areas, it is also included in the patent protection scope of the utility model.

Claims (10)

1. a kind of semi-automatic crimper for FFC, it is characterised in that: it includes rack, is set in rack for loading FFC Loading assemblies, be placed in after loading assemblies for after conveying the conveying assembly of FFC, being placed in conveying assembly for by FFC bending It foldable component and is set between loading assemblies and conveying assembly for the FFC on loading assemblies to be transferred on conveying assembly Transfer component；

The conveying assembly includes the delivery platform being fixed in rack, the compression platform being set to above delivery platform and is used for Driving compresses the compression cylinder that platform carries out elevating movement, and the conveyor belt for conveying FFC is provided on the delivery platform, The compression belt for compressing FFC in conveyor belt is provided on the compression platform.

2. a kind of semi-automatic crimper for FFC as described in claim 1, it is characterised in that: the loading assemblies include It is set to the bearing seat above rack, the magazine for placing FFC and is set on bearing seat for clamping the clamping machine of magazine Structure；The clamp system includes two bearing supports arranged in parallel being fixed on bearing seat along FFC conveying direction, sets It is placed between two bearing supports and two clamping plates, the axis being parallel to each other with two bearing supports turns to be connected to two carrying branch For controlling two clamping plates towards and away from at least one Bidirectional-screw of movement and being fixed on two bearing supports on frame And run through more fixing axles of two clamping plates, one end of the Bidirectional-screw is provided with the knob for rotating Bidirectional-screw, The middle part of two clamping plates and the top for being located at Bidirectional-screw and fixing axle are made to be formed with after extending in dislocation respectively in opposite directions The loading plate of distribution offers the vacant notch passed through for the loading plate on another clamping plate, institute on each clamping plate Magazine is stated to be placed on loading plate.

3. a kind of semi-automatic crimper for FFC as claimed in claim 2, it is characterised in that: the magazine is far from conveying The bottom of one end of component is provided with strip limiting through hole, and being provided in the magazine can slide in strip limiting through hole Postive stop baffle, be provided with the limit clamping plate being threadedly coupled with postive stop baffle, the limit clamping plate on the lower end surface of the magazine Width be greater than strip limiting through hole width.

4. a kind of semi-automatic crimper for FFC as claimed in claim 3, it is characterised in that: the bearing seat is made upward It is formed with the reinforcement supporting rib for being used to support magazine after extension, is offered and strip limiting through hole pair on the reinforcement supporting rib The sliding slot of position cooperation, the limit clamping plate are set in sliding slot.

5. a kind of semi-automatic crimper for FFC as claimed in claim 4, it is characterised in that: under the postive stop baffle End face is formed with lug boss after extending towards work in strip limiting through hole, and the boss is in the profile of strip limiting through hole In range, the postive stop baffle and limit clamping plate are threadedly coupled by the first adjusting screw rod.

6. a kind of semi-automatic crimper for FFC as described in claim 1, it is characterised in that: the foldable component includes It is set to the first support frame of conveying assembly exit side, is set to the folder on the first support frame for being gripped to FFC It holds mechanism and is set to clamping device exit side and is in two groups of bending mechanisms being distributed up and down；

The clamping device includes upper clamp plate, lower clamp plate, top shoe, sliding block, the first cylinder and the second cylinder, the upper clamp plate With lower clamp plate in symmetrical up and down, the upper clamp plate is fixedly connected on the lower end surface of top shoe, and the lower clamp plate is fixed to be connected It is connected on the upper surface of sliding block, first cylinder is set as two for driving the both ends of top shoe to make synchronization lifting fortune Dynamic, second cylinder is set as two both ends for driving sliding block and makees the synchronization lifting movement opposite with top shoe；

The bending mechanism includes being slidably connected on the first support frame and being located at the bending bracket of clamping device exit side, axis turn It is set on bending bracket and turns to be set at least two guiding on bending bracket for guiding for the compression bar of bending FFC, axis Bar and for drive bending bracket make up and down straight reciprocating motion third cylinder, the compression bar and guide rod are parallel to each other and set It sets, the every guide rod runs through bending bracket and extends distribution, the left and right of first support frame to the first support frame direction The guide chute matched with the both ends of guide rod is offered on two sidewalls respectively, each guide chute is in vertical straight Line distribution, each guide chute are provided with close to one end of compression bar to the curved arc groove of feed side.

7. a kind of semi-automatic crimper for FFC as claimed in claim 6, it is characterised in that: the foldable component also wraps Rotating mechanism is included, the rotating mechanism includes the rotation being fixed on the driving motor in rack, being fixed in driving motor shaft Driver plate rotates multiple position sensors of angle with being set to for controlling driving motor in rack, first support frame is solid Due to rotary drive plate.

8. a kind of semi-automatic crimper for FFC as claimed in claim 2, it is characterised in that: the transfer component includes Be set to loading assemblies side transfer bracket, along FFC conveying direction be set to transfer bracket on sliding rail, be set to sliding rail On slide plate, vertically be fixedly connected on slide plate the 4th cylinder, be set on the piston rod of the 4th cylinder transverse plate, setting In the 5th cylinder on transverse plate for drawing the sucker of FFC and for driving sliding block to move back and forth in the horizontal direction.

9. a kind of semi-automatic crimper for FFC as claimed in claim 8, it is characterised in that: the loading assemblies also wrap The lifting cylinder being fixed in rack for driving bearing seat to move up and down is included, the bearing seat lower end is arranged along the vertical direction There are at least two guiding axis, the every guiding axis runs through rack and can be with respect to housing slide, and the magazine is close to conveying group The end wall of part one end is set as being open.

10. a kind of semi-automatic crimper for FFC as described in claim 1, it is characterised in that: loading assemblies and defeated The flat of the second support frame, the height of second support frame upper surface and conveyor belt conveying FFC is additionally provided between sending component The height in face is identical, the top of second support frame and perpendicular to being provided with limited block, the limit on the conveying direction of FFC The both ends of block are threadedly coupled by two second adjusting screw rods with the second support frame, between the limited block and the second support frame Gap passes through for FFC.