CN109571581A - The cutter linkage mechanism of binder - Google Patents

Abstract

The present invention relates to a kind of cutter linkage mechanism of binder, belong to the permanent binding technique field of the stacked sheet or register in bookbinding operation.The mechanism includes cutter assembly and linkage mechanism, and cutter assembly includes blade, block and knife rest, and linkage mechanism includes the lifter rack and reversing mechanism of binder；Reversing mechanism includes the fixing seat being fixed on the middle platen of binder and the shaft that is threaded through in fixing seat；The bottom end of lifter rack is equipped with pin shaft and extends to middle platen hereinafter, being also equipped with the shift fork and shifting block for being located at fixing seat two sides in shaft；One end of shift fork couples with blade；Shifting block is in crescent, and one end is equipped with pulley.The mechanism reduces reversing mechanism part, the commutation of cutter is directly realized by by the lifter rack of binder itself, therefore have higher operational reliability and precision.

Description

The cutter linkage mechanism of binder

Technical field

The present invention relates to a kind of cutter of automatic bookbinding machine and its linkage mechanism, belong to stacked sheet in bookbinding operation or The permanent binding technique field of register.

Background technique

Currently, automatic bookbinding machine used by bookbinding to paper such as folio, bill, archives, this binder is realized The automation of forwarding starts corresponding operation by operation panel as long as bookbinding file is placed on the table, can be with Punching, Pipe Cutting and the several processing steps such as bookbinding that press once are completed, labor intensity is greatly simplified, improves bookbinding matter Amount.

Existing automatic bookbinding machine is as shown in Figure 1, and cutter mechanism 1 thereon is fixed on middle platen 102.Such as Fig. 2 and Fig. 3 Shown, cutter mechanism 1 is constituted by successively going here and there the pull rod 3 covered in shaft 2, shift fork 4, seat 5 and rocking bar 6.As shown in figures 1 and 3, Semiaxis 105 is equipped in the lifting guide pillar 16 of binder, the lower end of semiaxis 105 is equipped with pin hook 104；Seat 5 is fixed on middle platen 102 On；One end of pull rod 3 is hinged in shaft 2, and the other end connects tension spring 7；One end of rocking bar 6 is hinged in shaft 2, and the other end is stretched Out；One end of shift fork 4 is hinged in shaft 2, and the other end couples with cutter and (shows in figure).When work, in lifting guide pillar 16 It sells hook 104 and lifts and rotate forward rocking bar 6 the interior semiaxis 105 risen with lifting guide pillar 16, and shift fork 4 is by with rotating forward Push the blade pairing of cutter to cut off plastics riveting pipe 8 afterwards, pull rod 3 overcomes the pulling force of tension spring 7 to rotate forward at this time；It is led in lifting Its pin hook 104 of the semiaxis 105 declined in column 16 with lifting guide pillar 16 leaves rocking bar 6, and tension spring 7 drives pull rod 3 to rotate backward, and dials Fork 4 is pushed the blade of cutter to separate with after rotating backward, so that plastics riveting pipe 8 is fallen.Itself the problem is that: one, by It is only to drive pull rod 3 and shift fork 4 to realize by tension spring 7 when the blade of cutter separates, tension spring 7 is used for multiple times back pull and is easy to become Change or failure, therefore it is not in place to cause the blade of cutter to separate, and influences plastics riveting pipe 8 and falls and subsequent Pipe Cutting again.Two, semiaxis It is easy due to contact surface small (substantially line contact) and mismatch when the pin hook 104 of 105 lower end rises with the other end of rocking bar 6 It has skidded, influences the rotation of rocking bar 6.Three, the mechanism element for completing the positive decommuntation of cutter is more, and occupied space simultaneously influences to move Reliability.Four, the not high influence commutation of the displacement accuracy that semiaxis rises and cutter mobile accuracy.In short, part is more and reliability and Precision is not high.

Summary of the invention

The technical problem to be solved by the present invention is making the operational reliability of the cutter linkage mechanism of existing automatic bookbinding machine It increases with precision.

The technical solution that the present invention proposes to solve above-mentioned technical problem is: a kind of cutter linkage mechanism of binder, packet Cutter assembly and linkage mechanism are included, the cutter assembly includes the knife rest being fixed on the middle platen of the binder, described Moveable blade and the block being fixed on the knife rest on knife rest, the blade and block pairing and can divide relative to each other From the linkage mechanism includes reversing mechanism；The reversing mechanism includes the fixation being fixed on the middle platen of the binder Seat and the shaft that is threaded through in fixing seat are equipped with the shift fork positioned at the fixing seat side in the shaft；The shift fork One end couples with the blade；It is characterized by: the linkage mechanism further includes the lifter rack of the binder, the lifting The bottom end of rack gear is equipped with pin shaft and extends to the middle platen hereinafter, being also equipped in the shaft positioned at the fixing seat The shifting block of the other side；The shifting block is in crescent, and one end of crescent is equipped with pulley.

When work of the invention, when lifter rack decline, the bottom end of the lifter rack contact and described in pushing Pulley simultaneously pushes the shifting block to rotate forward along the shaft, and the shift fork also rotates forward simultaneously and pushes the blade forward Movement is simultaneously separated with the block, and the pin shaft enters in the crescent intrados of the shifting block, and the plastics riveting pipe falls into institute State the gap between blade and block；When the lifter rack rises, the pulley, institute are left in the bottom end of the lifter rack State pin shaft push aside upwards the shifting block crescent the other end and push the shifting block to rotate backward along the shaft, described group Fork also rotates backward simultaneously and pushes the blade to move backward and cut off the plastics riveting pipe with the block pairing.

The cutter linkage mechanism of binder of the present invention, 1) since the lifter rack of binder itself directly being extended and makes it Bottom end extend to middle platen hereinafter, and design unique crescent shifting block, using the bottom end and its pin shaft of lifter rack come directly It pushes shifting block to complete forward and reverse rotation and (directly stirs the one end of shifting block crescent, lifter rack when declining in lifter rack bottom end The pin shaft of bottom end directly stirs the other end of shifting block crescent when rising), as long as therefore a shifting block complete at one stroke The effect of two parts of rocking bar and pull rod of existing binder cutter mechanism, not only reduces part and its occupied space, and The commutation of cutter is directly realized by by the lifter rack of binder itself, motion credibility is higher.2) lifter rack bottom end is utilized And pin shaft forms two kinds of motive forces up and down to shifting block, it can be ensured that reliable rotation is formd to shifting block and its coaxial shift fork, Avoid existing the drawbacks of being only easy failure by spring force.3) when declining due to lifter rack bottom end and one end of shifting block crescent Pulley and what pin shaft formed the other end intrados of shifting block crescent when rising is face contact, therefore be not easy to skid, really It is reliable to protect thrust.4) since the displacement accuracy of lifter rack raising and lowering is higher than the existing displacement essence risen by semiaxis Degree, thus it is also inevitable using the precision that lifter rack raising and lowering directly forms the Double-directional rotary of shifting block and its coaxial shift fork The precision for driving shift fork to rotate is risen by semiaxis higher than existing, to improve cutter opening and closing precision.

Further improvement is that the bottom end of the lifter rack forms corner cut.

Further improving is that the pulley is bearing.

Further improving is that the shift fork is additionally provided with spring.In this way, spring can be passed through when lifter rack rises Reset pulling force and pin shaft dual motive force is formed to stirring for shifting block, be more conducive to being rapidly completed cutting plastics riveting pipe.

Further improving is that the lifter rack is engaged with the gear of the lifting motor output shaft end of the binder.

Detailed description of the invention

The cutter linkage mechanism of binder of the invention is described further with reference to the accompanying drawing.

Fig. 1 is the structural schematic diagram of existing automatic bookbinding machine

Wherein, cutter mechanism 1, plastics riveting pipe 8, lifting guide pillar 16, middle platen 102.

The structural schematic diagram of the cutter mechanism decomposed in Fig. 2 Fig. 1

Wherein, shaft 2, pull rod 3, shift fork 4, rocking bar 6, tension spring 7, middle platen 102, pin hook 104, semiaxis 105.

Fig. 3 is the left view of Fig. 2

Wherein, shaft 2, pull rod 3, shift fork 4, seat 5, rocking bar 6, tension spring 7, middle platen 102, semiaxis 105.

The general assembly schematic diagram of one automatic bookbinding machine of Fig. 4 embodiment of the present invention

Wherein, it pushes dolly needle 9, cutter assembly 10, lifting motor 11, gear 12, lifter rack 13, upper pressure riveting mechanism 14, beat Holes mechanism 15, lifting guide pillar 16, feeding mechanism 17, top plate 101, middle platen 102, bottom stage plate 103.

Fig. 5 is the partial structural diagram disassembled from Fig. 4

Wherein, cutter assembly 10, gear 12, lifter rack 13, upper pressure riveting mechanism 14, perforating mechanism 15, feeding mechanism 17, top plate 101, middle platen 102.

Fig. 6 is the schematic perspective views such as the reflection cutter mechanism disassembled from Fig. 4 and feeding mechanism

Wherein, plastics riveting pipe 8, lifter rack 13, blade 18-1, block 18-2, knife rest 19, fixing seat 20, shaft 21, pin shaft 22, shift fork 23, shifting block 24, pulley 26, feeding motor 171, drawing-inroller 172,.

Fig. 7 is the reversing mechanism disassembled from Fig. 4 and the structural schematic diagram of lifter rack

Wherein, lifter rack 13, pin shaft 22, shift fork 23, shifting block 24, pulley 26.

Fig. 8 is the right view of Fig. 7

Wherein, lifter rack 13, fixing seat 20, shaft 21, pin shaft 22, shift fork 23, shifting block 24, pulley 26.

The first status diagram when Fig. 9 is the work of cutter linkage mechanism of the embodiment of the present invention

Second of status diagram when Figure 10 is the work of cutter linkage mechanism of the embodiment of the present invention

The third status diagram when Figure 11 is the work of cutter linkage mechanism of the embodiment of the present invention

Figure 12 is a kind of variation structural schematic diagram of Fig. 7

Wherein, lifter rack 13, pin shaft 22, shift fork 23, shifting block 24, spring 25, pulley 26.

Specific embodiment

Embodiment

The binder of the present embodiment pushes dolly needle 9, cutter assembly 10, lifting motor 11, lifting as shown in figure 4, being equipped with Rack gear 13, upper pressure riveting mechanism 14, perforating mechanism 15, lifting guide pillar 16, feeding mechanism 17, top plate 101, middle platen 102 and bottom stage Plate 103 etc..11 output end of lifting motor is equipped with and 13 meshed gears 12 of lifter rack.

The cutter linkage mechanism of the present embodiment binder, as shown in Figure 4 and Figure 5, including cutter assembly 10 and linkage mechanism, Linkage mechanism includes the lifter rack 13 and reversing mechanism of binder.

As shown in fig. 6, cutter assembly includes the knife rest 19 being fixed on the middle platen 102 of binder, moveable knife Sword 18-1 and the block 18-2 being fixed on knife rest 19, blade 18-1 and block 18-2 with respect to pairing and can be separated；Blade 18-1 It is connected on the slide plate one end that can be slided on knife rest 19 and fixed, the prong of the slide plate other end and shift fork 23 forms grafting.It send Expect that mechanism 17 includes feeding motor 171, drawing-inroller 172, plastics riveting pipe 8 forms downward intermittent under the effect of drawing-inroller 172 It is mobile, with the intermittent gap fallen between blade 18-1 and block 18-2 after separating or by the blade 18-1 and gear after pairing Block 18-2 cutting.

As shown in Fig. 6, Fig. 7 and Fig. 8, reversing mechanism includes the fixing seat 20 being fixed on the middle platen 102 of binder and wears Shaft 21 in fixing seat 20；The bottom end of lifter rack 13 is equipped with pin shaft 22 and extends to middle platen 102 hereinafter, shaft The shift fork 23 and shifting block 24 for being located at 20 two sides of fixing seat are also equipped on 21；The middle part of shift fork 23 is hinged in shaft 21, One end and the grafting of the slide plate other end and couple with blade 18-1 formation.Shifting block 24 is in crescent, and middle part is hinged on shaft 21 On, one end is equipped with pulley 26, and the pulley 26 of the present embodiment uses bearing.It can be seen that the bottom of the lifter rack of the present embodiment End is formed vertical cut angle (i.e. straight chamfering), and the bottom end of lifter rack 13 is located at 26 top of pulley nearby and can decline in lifter rack 13 When contacted with pulley 26.

In work, as shown in figure 9, the bottom end of lifter rack 13 contacts and pushes pulley 26 when lifter rack 13 declines, The bottom end of lifter rack 13 pushes shifting block 24 and shaft 21 to rotate forward simultaneously, and crescent one end of shifting block 24, which is got out of the way, makes pin shaft 22 It drops downward into the crescent intrados of shifting block 24, shift fork 23 also rotates forward with shaft 21 simultaneously and pushes blade 18-1 forward Movement is simultaneously separated with block 18-2, and plastics riveting pipe 8 falls into the gap between blade 18-1 and block 18-2；As shown in Figure 10, when When lifter rack 13 rises, pulley 26 is left in the bottom end of lifter rack 13, and the crescent that pin shaft 21 pushes shifting block 24 aside upwards is another End (at this point, the outer peripheral surface of pin shaft 22 is contacted with the formation of the intrados of the crescent other end) pushes shifting block 24 and shaft 21 reversed Rotation, shift fork 23 also simultaneously rotated backward with shaft 21 and push blade 18-1 move backward and with block 18-2 pairing, thus Cut off plastics riveting pipe 8.A kind of state that lifter rack 13 continues after rising is as shown in figure 11, pushes 9 pairs of dolly needle cuttings at this time Plastics riveting pipe 8 afterwards carries out hot pressing riveting.In this way as the repetition of lifter rack 13 is gone up and down, the step-by-step movement to plastics riveting pipe 8 is formed Cutting.

Obviously, the variation being contemplated that in the present embodiment has:

1) as shown in figure 12, spring 25 can be set on shift fork, auxiliary pushing can be played when lifter rack 13 rises and is dialled 23 rotation of fork, to be conducive to that the cutting to plastics riveting pipe is rapidly completed.

2) pulley 26, can also be using other refills in addition to using bearing.

3) bottom end of lifter rack with circular arc corner cut (chamfering) or can also remove corner cut.

The foregoing is merely a specific embodiment of the invention, but scope of protection of the present invention is not limited thereto, own According to the technique and scheme of the present invention and design of the invention is subject to equivalent substitution or change should all cover in protection model of the invention Within enclosing.

Claims (6)

1. a kind of cutter linkage mechanism of binder, including cutter assembly and linkage mechanism, the cutter assembly includes being fixed on Knife rest, blade moveable on the knife rest on the middle platen of the binder and the gear being fixed on the knife rest Block, the blade and block pairing and can separate relative to each other, and the linkage mechanism includes reversing mechanism；The reversing mechanism packet The shaft for including the fixing seat being fixed on the middle platen of the binder and being threaded through in fixing seat is equipped with position in the shaft Shift fork in the fixing seat side；One end of the shift fork couples with the blade；It is characterized by: the linkage mechanism is also Lifter rack including the binder, the bottom end of the lifter rack be equipped with pin shaft and extend to the middle platen with Under, the shifting block positioned at the fixing seat other side is also equipped in the shaft；The shifting block be in crescent, the one of crescent End is equipped with pulley.

2. the cutter linkage mechanism of binder according to claim 1, it is characterised in that: when lifter rack decline, The bottom end of the lifter rack contacts and pushes the pulley and the shifting block is pushed to rotate forward along the shaft, the shift fork Also it rotates forward simultaneously and pushes the blade to move forward and separated with the block, the pin shaft enters the moon of the shifting block In thread form intrados, the plastics riveting pipe falls into the gap between the blade and block；When the lifter rack rises, institute The pulley is left in the bottom end for stating lifter rack, and the pin shaft pushes the other end of the crescent of the shifting block aside upwards and pushes institute Shifting block is stated to rotate backward along the shaft, the shift fork also simultaneously rotate backward and push the blade move backward and with it is described Block pairing is to cut off the plastics riveting pipe.

3. the cutter linkage mechanism of binder according to claim 1 or claim 2, it is characterised in that: the bottom end of the lifter rack Form corner cut.

4. the cutter linkage mechanism of binder according to claim 1 or claim 2, it is characterised in that: the pulley is bearing.

5. the cutter linkage mechanism of binder according to claim 1 or claim 2, it is characterised in that: the shift fork, which also couples, bullet Spring.

6. the cutter linkage mechanism of binder according to claim 1 or claim 2, it is characterised in that: the lifter rack with it is described The gear of the lifting motor output shaft end of binder engages.