CN220577681U - Baffle discharging mechanism of book binding machine - Google Patents

Abstract

The utility model relates to the technical field of paper stacking, in particular to a baffle plate blanking mechanism of a book binding machine, which comprises a feeding platform for stacking protective splints, wherein the feeding platform comprises a platform plate for enabling a plurality of protective splints to be laminated and stacked in an upright posture, the platform plate is obliquely arranged, a top plate piece for preventing the protective splints from collapsing is slidably arranged on the platform plate, the platform plate is provided with a positioning shaft for guiding and sliding the protective splints, and the positioning shaft is arranged along the length direction of the platform plate and can move along the width direction of the platform plate so as to adjust the transverse position; after a plurality of stacked protective splints are placed on the platform plate, the side parts of the protective splints are in contact fit with the positioning shaft, and the uneven protective splints can be aligned, so that the protective splints can be matched with a book stack effectively when being used for discharging Ji Shudui.

Description

Baffle discharging mechanism of book binding machine

Technical Field

The utility model relates to the technical field of paper stacking, in particular to a partition plate blanking mechanism of a book binding machine.

Background

After the papers are stacked to a certain length, the papers are bound, packed and finally boxed for warehouse-out. When the existing bundling mode is used for bundling paper, the paper is not stable in lamination, a large gap exists between two adjacent paper sheets, the paper sheets after bundling can be loosened, books after bundling and forming are easy to fall off, and the quality is poor.

In order to solve the problems, the Chinese utility model with the patent number of CN202122580680.7 discloses a paper packing mechanism, which comprises a bottom support plate for positioning paper, more than one pressing plate, a pushing plate mechanism for driving one pressing plate to slide on the bottom support plate, a binding belt mechanism arranged at the bottom of the bottom support plate, an automatic binding machine and a rope groove communicated with the binding belt mechanism, wherein the rope groove is formed in the bottom support plate; the stacked paper is long-strip-shaped, the two ends are positioned by the pressing plates, the bottom ends are positioned by the bottom supporting plates, when the compression degree is insufficient, the pushing plate mechanism moves to drive one pressing plate to slide and close to the other pressing plate, the stacked paper is bound and fixed by automatic binding machine equipment by passing a binding rope through a rope groove, the paper is prevented from falling off due to loosening, binding and packing are completed, and binding quality is improved.

When the papers are packed, the clamping plates are respectively arranged at the two end surfaces of the book stack, and when the papers are subsequently packed, the ropes cannot directly contact the edge part of the book stack, so that the book blocks can be effectively protected; when the existing clamping plates are used for feeding, the phenomenon of offset easily occurs, so that the clamping plates cannot align book piles and cannot protect the book piles.

Disclosure of Invention

The utility model aims to provide a baffle plate blanking mechanism of a book binding machine aiming at the defects of the prior art.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model provides a bundle baffle unloading mechanism of book binding machine, is including the loading platform that is used for piling up protection splint, and the loading platform is including the landing board that supplies a plurality of protection splints to laminate with the gesture of standing and pile up, and landing board slope is arranged, and landing board slidable mounting has the roof spare that prevents protection splint and collapse, and landing board is provided with the location axle that leads gliding to protection splints, and the location axle is arranged along landing board length direction and can follow landing board width direction and remove in order to adjust transverse position.

Further: the bottom of the platform plate is provided with a driving plate, a rotatable adjusting screw rod is transversely arranged on the driving plate, and a screw sleeve seat connected with the positioning shaft is arranged on the adjusting screw rod in a transmission mode.

Further: the fluency component which is in rolling fit with the protective clamping plate and is used for the protective clamping plate to slide along the platform plate is arranged on the platform plate along the length direction; the fluent component comprises fluent strips which are arranged along the length direction of the platform plate, the fluent strips are provided with mounting grooves along the length direction, and the mounting grooves are provided with rolling wheels which are rotatably matched with the edge surface of the bottom of the protective clamping plate in a rolling way along the length direction at intervals.

Further: the roof piece includes the inclined plate that is used for propping up terminal protection splint, and gravity ejector pad with fluent subassembly sliding fit is installed to inclined plate bottom.

Further: one end of the feeding platform is provided with a push plate mechanism for pushing out the protective clamping plates of the feeding platform to the two ends of the stacked paper one by one, the push plate mechanism comprises a lifting block capable of moving longitudinally, the lifting block is provided with a limit stop block for preventing the protective clamping plates from falling down, and a suction piece which is positioned at the bottom of the limit stop block and can suck the protective clamping plates is arranged on the lifting block.

Further: the pushing plate mechanism further comprises a pushing plate frame arranged at the tail end of the platform plate, a pushing plate driving piece which is longitudinally arranged is arranged on the pushing plate frame, a pushing plate driving seat which can longitudinally move is arranged at the driving end of the pushing plate driving piece, and the pushing plate driving seat is connected with the lifting block.

Further: the push plate driving piece is a longitudinal linear module longitudinally arranged on the push plate frame, a longitudinal linear guide rail is arranged beside the longitudinal linear module, a longitudinal sliding seat is slidably arranged on the longitudinal linear guide rail, the longitudinal sliding seat is connected with the lifting block, and a rolling bearing in rolling fit with the lifting block is further arranged on the longitudinal linear guide rail.

Further: the push plate frame comprises a plurality of transverse aluminum profiles which are transversely arranged and longitudinal aluminum profiles which are longitudinally arranged, the longitudinal linear modules are perpendicular to the transverse aluminum profiles, and the longitudinal linear guide rails are arranged on the longitudinal aluminum profiles; the longitudinal linear guide rail is parallel to the longitudinal linear module.

Further: the lifting block bottom shaping has a plurality of interval arrangement's lifting strip, and the actuation piece is installed at the lifting strip.

Further: the distance between the outer end surface of the limit stop and the tail end of the feeding platform is smaller than the thickness of the single protective clamping plate; the distance between the outer end face of the suction piece and the tail end of the feeding platform is greater than the thickness of the single protective clamping plate and less than the thickness of the two protective clamping plates.

The utility model has the beneficial effects that: after a plurality of stacked protective splints are placed on the platform plate, the side parts of the protective splints are in contact fit with the positioning shaft, and the uneven protective splints can be aligned, so that the protective splints can be matched with a book stack effectively when being used for discharging Ji Shudui.

Drawings

Fig. 1 is a schematic structural view of a separator unloader.

Fig. 2 is a schematic view of a structure of a feeding platform in a bottom view.

Fig. 3 is a schematic view of a partial structure of the push plate mechanism.

Fig. 4 is a schematic structural view of the fluent component.

Fig. 5 is a schematic view of a part of the push plate mechanism, with the longitudinal linear guide hidden.

Fig. 6 is a schematic structural view of a loading platform, including a protective clamping plate.

The reference numerals include:

a 1-feeding platform,

10-fluency assembly, 11-platform board, 12-fluency strip, 13-rolling wheel, 14-top board, and,

15-inclined plate, 16-gravity pushing block, 17-protective clamping plate, 18-mounting groove,

19-positioning shaft,

191-driving plate, 192-adjusting screw rod, 193-screw sleeve seat,

A 2-push plate mechanism,

20-pushing plate frame, 21-transverse aluminum profile, 22-longitudinal aluminum profile, 23-longitudinal linear module,

24-push plate driving seat, 25-longitudinal guide post, 26-longitudinal guide groove, 27-longitudinal linear guide rail,

28-longitudinal sliding seat, 29-rolling bearing,

3-lifting block,

31-lifting bar, 32-limit stop, 33-suction piece.

Detailed Description

The present utility model will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to 6, the separator discharging mechanism of the book binding machine comprises a feeding platform 1 for stacking protective clamping plates 17, wherein one end of the feeding platform 1 is provided with a push plate mechanism 2 for pushing the protective clamping plates 17 of the feeding platform 1 to two ends of stacked paper sheets one by one.

The protection splint 17 can be along the continuous removal of loading platform 1, loading platform 1 is including the inclined arrangement, supply a plurality of protection splint 17 to laminate the landing board 11 that stacks with the gesture of standing, be arranged along length direction on landing board 11 with protection splint 17 roll the cooperation and supply the smooth subassembly 10 of protection splint 17 along landing board 11 gliding, a plurality of protection splints 17 laminate each other with the gesture of standing, place at landing board 11 that has smooth subassembly 10, because landing board 11 is inclined arrangement, consequently the protection splint 17 that stacks can be constantly slided by gravity influence, supply protection splint 17 material loading, need not to use other mechanisms to carry out the push pedal, but the cost is reduced.

Specifically, the number of the fluency assemblies 10 is more than three, the fluency assemblies 10 comprise fluency strips 13 arranged along the length direction of the platform plate 11, the fluency strips 13 are provided with mounting grooves 18 along the length direction, and the mounting grooves 18 are provided with rolling wheels 13 which are rotatably matched with the bottom edge surface of the protective clamping plate 17 in a rolling way at intervals along the length direction. The rolling wheel 13 in the area where the mounting groove 18 is close to can be detached, after detachment, when the protective clamping plate 17 approaches to the push plate mechanism 2, the friction force between the protective clamping plate 17 and the fluency strip 13 is increased, and at the moment, the protective clamping plate 17 can slowly approach to the push plate mechanism 2, and cannot enter the push plate mechanism 2 at the same time, so that subsequent push plate blanking is facilitated.

The platform plate 11 is further provided with a top plate member 14 for preventing the protective clamping plate 17 from collapsing, the top plate member 14 comprises an inclined plate 15 for supporting the protective clamping plate 17 at the tail end, and a gravity pushing block 16 in sliding fit with the fluent component 10 is mounted at the bottom of the inclined plate 15.

Preferably, the stacked protective clamping plates 17 are placed on the platform plate 11 provided with a plurality of fluent components 10, the protective clamping plates 17 can continuously slide along the fluent components 10 during feeding, the rolling wheels 13 of the fluent strips 13 are in rolling fit with the bottom edge surfaces of the protective clamping plates 17, and the protective clamping plates 17 can slide under the gravity factor to realize feeding one by one. The tail end of the stacked protective clamping plates 17 is supported by the top plate 14, the inclination angle of the inclined plates 15 is the same as that of the protective clamping plates 17, the protective clamping plates 17 can be preferably inclined and supported, and after the protective clamping plates 17 are fed one by one, the gravity pushing blocks 16 are in sliding fit with the fluent components 10 and always keep fit with the protective clamping plates 17, so that inclined support is realized, the protective clamping plates 17 are prevented from collapsing, and feeding is affected.

The platform plate 11 is provided with a positioning shaft 19 guiding the protective clamping plate 17 to slide, and the positioning shaft 19 is arranged along the length direction of the platform plate 11. After the protective clamping plate 17 is placed into the platform plate 11, the side parts of the protective clamping plate 17 are in contact fit with the positioning shafts 19, and the uneven protective clamping plate 17 can be aligned, so that the protective clamping plate 17 can be matched with a book stack effectively at Ji Shudui during blanking.

The positioning shaft 19 is movable in the widthwise direction of the platform plate to adjust the widthwise position. The bottom of the platform plate is provided with a driving plate 191, the driving plate 191 is transversely provided with a rotatable adjusting screw rod 192, and the adjusting screw rod 192 is in transmission mounting with a screw sleeve seat 193 connected with the positioning shaft 19. Through rotating adjusting screw 192 for swivel nut seat 193 and adjusting screw 192 sliding fit, install the adjustable transverse position of locating shaft 19 at swivel nut seat 193, be convenient for carry out the adaptation to the locating splint of equidimension not for the direction location.

The push plate mechanism 2 comprises a lifting block 3 capable of longitudinally moving, the push plate mechanism 2 further comprises a push plate frame 20 arranged at the tail end of the platform plate 11, a longitudinally arranged push plate driving member is arranged on the push plate frame 20, a longitudinally movable push plate driving seat 24 is arranged on the driving end of the push plate driving member, the push plate driving seat 24 is connected with the lifting block 3, a limit stop 32 for preventing the protective clamping plate 17 from falling down is arranged on the lifting block 3, and an absorbing member 33 which is arranged at the bottom of the limit stop 32 and can absorb the protective clamping plate 17 is arranged on the push plate frame 20. When the papers are stacked, the attraction piece 33 is used for adsorbing the protective clamping plates 17 at the outermost ends through the matching of the feeding platform 1 and the pushing plate mechanism 2, the limit stop 32 is used for pushing out the protective clamping plates 17 and guiding the stacked papers, after the papers are stacked to the required number, the protective clamping plates 17 are pushed out through the matching of the feeding platform 1 and the pushing plate mechanism 2 and used for propping against the other end of the stacked papers, both ends of the stacked papers are protected by the protective clamping plates 17, the papers cannot be damaged in subsequent bundling, the papers can be effectively protected, and bundling quality of the papers is improved.

The push plate frame 20 comprises a plurality of transverse aluminum profiles 21 which are transversely arranged and longitudinal aluminum profiles 22 which are longitudinally arranged, a push plate driving piece is a longitudinal linear module 23 which is perpendicular to the transverse aluminum profiles 21, a power piece of the longitudinal linear module 23 is a servo motor, longitudinal guide posts 25 are formed on the longitudinal linear module 23 along the length direction, and longitudinal guide grooves 26 which are in sliding fit with the longitudinal guide posts 25 are formed on the push plate driving seat 24.

In addition, the side of the longitudinal linear module 23 is provided with a longitudinal linear guide 27, the longitudinal linear guide 27 is slidably provided with a longitudinal sliding seat 28, the longitudinal sliding seat 28 is connected with a lifting block, the lifting block 3 is driven by the longitudinal linear module 23 to move in a lifting manner, and the longitudinal sliding seat 28 connected with the lifting block 3 simultaneously moves vertically along the longitudinal linear guide 27 during lifting movement, so that the lifting block 3 moves linearly in the vertical direction, the movement precision is further improved, and the cooperation with the protective clamping plate 17 is more stable.

Preferably, the longitudinal linear guide rail 27 is mounted on the longitudinal aluminum profile, and the longitudinal linear guide rail 27 and the longitudinal linear module 23 are parallel to each other, so that the linear precision of the linear motion of the lifting block 3 in the vertical direction can be further improved.

The transverse aluminum profile 21 and the longitudinal aluminum profile 22 are mutually spliced in a welding mode to form the push plate frame 20 with a frame-shaped structure, the push plate frame 20 is further connected with the outer end of the platform plate 11, stability is good, under the driving of the longitudinal linear module 23, the lifting block 3 is in sliding fit with the longitudinal guide post 25 of the longitudinal module through the longitudinal guide groove 26, the lifting block 3 can longitudinally move, when the lifting block moves longitudinally, the limit stop 32 on the lifting block 3 props against the protective clamping plate 17 to prevent the protective clamping plate 17 from falling, when the lifting block 3 is continuously lifted and does not contact with the protective clamping plate 17, the protective clamping plate 17 is contacted with the sucking piece 33 at the bottom of the limit stop 32, the protective clamping plate 17 is sucked by the sucking piece 33, and then the lifting block 3 descends to push out one protective clamping plate 17 downwards, so that feeding is realized one by one.

The lifting block 3 bottom shaping has a plurality of interval arrangement's lifting bar 31, and the actuation piece 33 is installed at lifting bar 31, and a plurality of actuation pieces 33 can adsorb protection splint 17 simultaneously, improves adsorption stability. The distance between the outer end surface of the limit stop 32 and the tail end of the feeding platform 1 is smaller than the thickness of the single protective clamping plate 17. The distance between the outer end surface of the suction piece 33 and the tail end of the feeding platform 1 is larger than the thickness of the single protective clamping plate 17 and smaller than the thickness of the two protective clamping plates 17.

In this embodiment, the engaging member 33 is a vacuum chuck, when the lifting block 3 moves longitudinally, the limit stop 32 on the lifting block 3 abuts against the protective clamping plate 17 to prevent the protective clamping plate 17 from falling, when the lifting block 3 continues to lift and does not contact with the protective clamping plate 17, the protective clamping plate 17 of the whole stack slides by a distance of one protective clamping plate 17, the protective clamping plate 17 at the outermost end contacts with the engaging member 33 at the bottom of the limit stop 32, one end surface of the protective clamping plate 17 contacts with the engaging member 33, and the other end surface contacts with the other protective clamping plate 17; the lifting block 3 descends, the bottom surface of the limit stop 32 pushes one protective clamping plate 17 downwards, after the protective clamping plate 17 is pushed out, the second protective clamping plate 17 is in sliding fit with the limit stop 32 and cannot fall off the platform plate 11, so that the number of protective clamping plates 17 pushed out downwards each time is one, and the downward pushing out is realized one by one.

Preferably, the longitudinal linear guide rail 27 is also provided with a rolling bearing 29 in rolling fit with the lifting block 3; the linear precision of the lifting block 3 in the linear motion in the vertical direction can be further improved, the lifting block can be vertically aligned with the corresponding protective clamping plates 17, and when the push plate is used for discharging, the number of the protective clamping plates 17 pushed out downwards each time is one, so that one-by-one downward pushing out is realized.

In view of the above, the present utility model has the above-mentioned excellent characteristics, so that it can be used to improve the performance and practicality of the prior art, and is a product with great practical value.

The foregoing is merely exemplary of the present utility model, and those skilled in the art should not be considered as limiting the utility model, since modifications may be made in the specific embodiments and application scope of the utility model in light of the teachings of the present utility model.

Claims (10)

1. Baffle unloading mechanism of bundle book machine, including being used for piling up the material loading platform of protection splint, its characterized in that: the feeding platform comprises a platform plate, wherein a plurality of protective clamping plates are attached and stacked in a standing posture, the platform plate is obliquely arranged, a top plate piece for preventing the protective clamping plates from collapsing is slidably arranged on the platform plate, a positioning shaft for guiding and sliding the protective clamping plates is arranged on the platform plate, and the positioning shaft is arranged along the length direction of the platform plate and can move along the width direction of the platform plate so as to adjust the transverse position.

2. The separator blanking mechanism of a book binding machine of claim 1, wherein: the bottom of the platform plate is provided with a driving plate, a rotatable adjusting screw rod is transversely arranged on the driving plate, and a screw sleeve seat connected with the positioning shaft is arranged in a transmission mode of the adjusting screw rod.

3. The separator blanking mechanism of a book binding machine of claim 1, wherein: the fluency assembly which is in rolling fit with the protective clamping plate and is used for the protective clamping plate to slide along the platform plate is arranged on the platform plate along the length direction; the fluent component comprises fluent strips which are arranged along the length direction of the platform plate, the fluent strips are provided with mounting grooves along the length direction, and the mounting grooves are provided with rolling wheels which are rotatably matched with the edge surface of the bottom of the protective clamping plate in a rolling way along the length direction at intervals.

4. The separator blanking mechanism of a book binding machine of claim 1, wherein: the roof piece includes the inclined plate that is used for propping up terminal protection splint, and gravity ejector pad with fluent subassembly sliding fit is installed to inclined plate bottom.

5. The separator blanking mechanism of a book binding machine of claim 1, wherein: the feeding platform one end is provided with the push plate mechanism that promotes the protection splint of feeding platform to the paper both ends of piling one by one, and push plate mechanism includes but longitudinal movement's elevating block, and limit stop that prevents protection splint whereabouts and install be located limit stop bottom, can be with the absorptive actuation piece of protection splint.

6. The separator blanking mechanism of a book binding machine of claim 5, wherein: the pushing plate mechanism further comprises a pushing plate frame arranged at the tail end of the platform plate, a pushing plate driving piece which is longitudinally arranged is arranged on the pushing plate frame, a pushing plate driving seat which can longitudinally move is arranged at the driving end of the pushing plate driving piece, and the pushing plate driving seat is connected with the lifting block.

7. The separator blanking mechanism of a book binding machine of claim 6, wherein: the push plate driving piece is a longitudinal linear module longitudinally arranged on the push plate frame, a longitudinal linear guide rail is arranged beside the longitudinal linear module, a longitudinal sliding seat is slidably arranged on the longitudinal linear guide rail, the longitudinal sliding seat is connected with the lifting block, and a rolling bearing in rolling fit with the lifting block is further arranged on the longitudinal linear guide rail.

8. The separator blanking mechanism of a book binding machine of claim 7, wherein: the push plate frame comprises a plurality of transverse aluminum profiles which are transversely arranged and longitudinal aluminum profiles which are longitudinally arranged, the longitudinal linear modules are perpendicular to the transverse aluminum profiles, and the longitudinal linear guide rails are arranged on the longitudinal aluminum profiles; the longitudinal linear guide rail is parallel to the longitudinal linear module.

9. The separator blanking mechanism of a book binding machine of claim 5, wherein: the lifting block bottom shaping has a plurality of interval arrangement's lifting strip, and the actuation piece is installed at the lifting strip.

10. The separator blanking mechanism of a book binding machine of claim 5, wherein: the distance between the outer end surface of the limit stop and the tail end of the feeding platform is smaller than the thickness of the single protective clamping plate; the distance between the outer end face of the suction piece and the tail end of the feeding platform is greater than the thickness of the single protective clamping plate and less than the thickness of the two protective clamping plates.