CN114889884A

CN114889884A - Emergency exit device for neat signatures in high-speed stacking and bundling machine system

Info

Publication number: CN114889884A
Application number: CN202210663919.3A
Authority: CN
Inventors: 陈嘉; 李孔旗; 王晋; 宋华明; 梁娟利; 王云田
Original assignee: Beiren Intelligent Equipment Technology Co ltd
Current assignee: Beiren Intelligent Equipment Technology Co ltd
Priority date: 2022-06-13
Filing date: 2022-06-13
Publication date: 2022-08-12
Anticipated expiration: 2042-06-13
Also published as: CN114889884B

Abstract

The invention discloses a neat section emergency exit device used in a high-speed stacking and bundling machine system, which comprises a rack, wherein a conveying belt component, an accelerating belt component and an emergency exit belt component are sequentially arranged on the rack along the conveying direction of the sections; the conveying belt assembly is respectively provided with a signature adjusting assembly and a paper pressing wheel assembly, and a transition wheel assembly is arranged at the transition position of the conveying belt assembly and the accelerating belt assembly; an emergency exit cylinder is arranged at the emergency exit belt assembly. By adopting the invention, the regular delivery of the signatures can be realized under the condition that the signatures do not stop, and the signatures can be discharged under the emergency condition.

Description

Emergency exit device for neat signatures in high-speed stacking and bundling machine system

Technical Field

The invention belongs to the technical field of signature conveying, and relates to an emergency exit device for neat signatures in a high-speed stacking and bundling machine system.

Background

The layout of the web printing press and the signature stacker is different for each printing enterprise workshop. Signatures produced by web presses are transported by various conveyors and eventually enter a stacker. Continuous, fish-scaled signatures are transported at high speed on a conveyor belt before entering the stacker, creating instances of signature misalignment and the need for emergency ejection of signatures.

Disclosure of Invention

The invention aims to provide a neat section emergency exit device used in a high-speed stacking and bundling machine system, which can realize the orderly conveying of the sections under the condition that the sections do not stop and can discharge the sections under the emergency condition.

The invention adopts the technical scheme that the neat section emergency exit device used in the high-speed stacking bundling machine system comprises a rack, wherein a conveying belt component, an accelerating belt component and an emergency exit belt component are sequentially arranged on the rack along the conveying direction of the sections; the conveying belt assembly is respectively provided with a signature adjusting assembly and a paper pressing wheel assembly, and a transition wheel assembly is arranged at the transition position of the conveying belt assembly and the accelerating belt assembly; an emergency exit cylinder is arranged at the emergency exit belt assembly.

The invention is also characterized in that:

the signature adjusting assembly comprises an end face cam shaft, two opposite sides of the end face cam shaft are respectively provided with a guide rod A and a guide rod B in parallel, and two ends of the end face cam shaft are respectively provided with an end face cam; the surface of the end face cam is provided with a circle of groove, a small end face cam shaft is embedded in the groove, and the small end face cam shaft is connected with the outer side face of the book aligning and pasting plate through a book connecting frame;

the two book aligning plates are symmetrically distributed right above the guide rod A and the guide rod B; the two ends of the end cam shaft, the two ends of the guide rod A and the two ends of the guide rod B1 respectively penetrate through the two end cam supports simultaneously and are connected with the two opposite sides of the rack respectively.

The guide rod A is a polished rod; threads are respectively arranged at two ends of the guide rod B, and the rotating directions of the threads at the two ends of the guide rod B are opposite; threaded holes are respectively formed in the joints of the two end face cam supports and the guide rod B, and the guide rod B is matched with the end face cam supports through threads; one end of the guide rod B is connected with a hand wheel; the end face cam bracket is matched with the guide rod A through the unthreaded hole.

The end face cam support comprises two positioning plates, the two positioning plates are connected with the guide rod A and the guide rod B to form a square frame, and the end face cam is just framed inside the end face cam support.

One end of each of the two book aligning plates close to the book inlet is in a horn mouth shape.

The paper pressing wheel assembly comprises a paper pressing plate air cylinder support, and the paper pressing plate air cylinder support is arranged along the length direction of the conveying belt assembly; two ends of the paper pressing plate cylinder support are respectively provided with a paper pressing plate cylinder, a rodless cylinder is arranged between the two paper pressing plate cylinders, and two ends of the rodless cylinder are respectively fixed on the paper pressing plate cylinder support; the slide block of the rodless cylinder is connected with two large paper pressing wheels through a pressing wheel connecting rod; two ends of the paper pressing plate cylinder support are respectively connected to the cross rods on the two inverted L-shaped small frames, and the lower ends of the vertical rods of the two small frames are connected to the same side of the rack; the end parts of the piston rods of the two paper pressing plate cylinders are provided with pressing blocks, the bottoms of the two pressing blocks are respectively connected to the two opposite ends of the paper pressing plate, and the two large paper pressing wheels are respectively positioned on the two opposite sides of the paper pressing plate.

The transition wheel assembly comprises a small paper pressing wheel frame, the small paper pressing wheel frame is fixed on one side of the rack and is positioned in a transition area between the conveying belt assembly and the accelerating belt assembly, and a small paper pressing wheel is arranged on the small paper pressing wheel frame.

The invention has the advantages that the neat section emergency exit device used in the high-speed stacking bundling machine system can complete multiple functions of conveying, left and right neat section and section emergency exit at one time, and has good market prospect.

Drawings

FIG. 1 is a front elevation view of a collated signature emergency exit device for use in a high speed stacking baler system of the present invention;

FIG. 2 is a top plan view of the collated signature emergency exit device for use in a high speed stacking baler system of the present invention;

FIG. 3 is a perspective view of a collated signature emergency exit device for use in a high speed stacking baler system in accordance with the invention;

FIG. 4 is a side view of the collated signature emergency exit device for use in a high speed stacking baler system of the present invention;

FIG. 5 is a top view of a collated signature emergency exit device for use in a high speed stacking baler system of the present invention;

FIG. 6 is a schematic view of the mating structure of the end cam and the end cam bracket of the neat signature emergency exit device for use in the high speed stacking baler system of the present invention;

FIG. 7 is a schematic view of a connection structure of a small paper pressing wheel and a small paper pressing wheel frame in the neat section emergency exit device in the high-speed stacking baler system according to the invention;

FIG. 8 is a schematic view of the connection between the platen cylinder bracket and the platen cylinder in the neat section emergency exit device of the present invention for use in a high speed stacking baler system.

In the figure, 1, a rack, 2, a guide rod A, 3, an end face cam, 4, a book aligning plate, 5, a paper pressing plate, 6, a small frame, 7, a rodless cylinder, 8, a large paper pressing wheel, 9, a small paper pressing wheel, 10, a conveying belt assembly, 11, an accelerating belt assembly, 12, an emergency exit belt assembly, 13, an emergency exit cylinder, 14, a book, 15, a paper pressing plate cylinder, 16, an end face cam shaft, 17, an end face cam bracket, 18, an end face cam small shaft, 19, a guide rod B, 20, a motor, 21, an emergency exit cylinder fulcrum shaft, 22, a main transmission chain assembly, 23, a chain middle transmission, 24, a chain emergency exit transmission, 25, an emergency exit small wall plate, 26, a small paper pressing wheel bracket, 28, a groove, 29, a book connecting bracket, 30, a hand wheel, 31, a positioning plate, 32, a paper pressing plate cylinder bracket, 33, a pressing wheel connecting rod, 34, a pressing block and 35 are arranged.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

The invention is used for a neat section emergency exit device in a high-speed stacking and bundling machine system, and comprises a rack 1, wherein a plurality of conveying belt assemblies 10, a plurality of accelerating belt assemblies 11 and a plurality of emergency exit belt assemblies 12 (the number of the conveying belt assemblies 10, the accelerating belt assemblies 11 and the emergency exit belt assemblies 12 is determined according to the width of a section, 3 are taken as an example in the embodiment) are sequentially arranged on the rack 1 along the conveying direction of the section 14; a small paper pressing wheel frame 26 is arranged at the transition position of the conveying belt component 10 and the accelerating belt component 11, and a small paper pressing wheel 9 is arranged on the small paper pressing wheel frame 26; the small paper pressing wheel carrier 26 is fixedly arranged on one side of the frame 1; as shown in fig. 7, a sliding groove 35 is provided at the joint of the small platen wheel frame 26 and the small platen wheel 9, so that the height of the small platen wheel 9 relative to the conveyor belt assembly 10 is adjustable.

The conveying belt assembly 10, the accelerating belt assembly 11 and the emergency exit belt assembly 12 are narrow belts and are convenient to replace; the emergency exit belt assembly 12 is arranged on the small emergency exit wall plate 25, and one end of the small emergency exit wall plate 25 is hinged with the rack 1; the cylinder body of the emergency exit cylinder 13 is jointed on the frame 1 through an emergency exit cylinder fulcrum shaft 21, and the piston rod of the emergency exit cylinder 13 is hinged with an emergency exit small wall plate 25.

The conveying belt assembly 10 is driven by a main transmission chain assembly 22, the accelerating belt assembly 11 is driven by a chain middle transmission 23, the emergency exit belt assembly 12 is driven by a chain emergency exit transmission 24, and the main transmission chain assembly 22, the chain middle transmission 23 and the chain emergency exit transmission 24 are driven by a motor 20 to operate; the movement of the conveyor belt assembly 10, the acceleration belt assembly 11 and the emergency exit belt assembly 12 is the same as the drive of a conventional conveyor belt assembly, which is prior art.

The present invention is used in a neat signature emergency exit device in a high speed stacking baler system, as shown in fig. 1, with a continuous signature 14 provided by a printing press;

an end face cam shaft 16 is arranged above the conveying belt assembly 10, two opposite sides of the end face cam shaft 16 are respectively provided with a guide rod A2 and a guide rod B19 in parallel, two ends of the end face cam shaft 16 are respectively provided with an end face cam 3, and one end of the end face cam shaft 16 is connected with a main transmission chain assembly 22; the main transmission chain assembly 22 is connected with the motor 20;

the end face cam shaft 16 is a hexagonal shaft, and an inner hexagonal hole is formed in the center of the end face cam 3; the end cam shaft 16 passes through an inner hexagonal hole in the end cam 3;

as shown in fig. 6, a circle of groove 28 is formed on the surface of the end cam 3, a small end cam shaft 18 is embedded in the groove 28, and the small end cam shaft 18 is connected with the outer side surface of the signature aligning plate 4 through a signature connecting frame 29;

as shown in fig. 5, the signature aligning plates 4 are two pieces, and one ends of the two signature aligning plates 4 close to the entrance of the signature 14 are in a bell mouth shape; the two signature aligning plates 4 are symmetrically distributed right above the guide rod A2 and the guide rod B19;

two ends of the end cam shaft 16, two ends of the guide rod A2 and two ends of the guide rod B19 respectively penetrate through the two end cam brackets 17 at the same time and are respectively connected with two opposite sides of the rack 1;

the guide rod A2 is a polished rod; threads are respectively arranged at two ends of the guide rod B19, and the screwing directions of the threads at two ends of the guide rod B19 are opposite; threaded holes are respectively formed in the joints of the two end cam supports 17 and the guide rod B19, and the guide rod B19 is matched with the end cam supports 17 through threads; one end of the guide rod B19 is connected with a hand wheel 30; the end cam bracket 17 is matched with the guide rod A2 through a light hole;

as shown in fig. 6, the end cam bracket 17 includes two positioning plates 31, the two positioning plates 31 are connected with a guide rod a2 and a guide rod B19 to form a square frame, and the end cam 3 is just framed inside the end cam bracket 17; the distance that the end cam 3 moves along the end cam shaft 16 is the spacing between the two positioning plates 31 in the cam carrier 17.

The motor 20 drives the end face cam shaft 16 to rotate through the main transmission chain assembly 22, the end face cam shaft 16 drives the end face cam 3 to rotate, the end face cam 3 drives the end face cam small shaft 18 to move, the end face cam small shaft 18 is connected with the signature aligning plates 4 through the signature connecting frame 29, and the motor 20 rotates to drive the two signature aligning plates 4 to move left and right in the horizontal direction.

When successive signatures 14 are fed onto the signature aligning plates 4 by the conveyor belt assembly 10, the two signature aligning plates 4 move left and right directly above the end cam shaft 16, aligning the signatures 14 left and right.

The end cam 3 is placed in the end cam bracket 17, and the end cam bracket 17 can move above the guide rod a2 and the guide rod B19; the handwheel 30 is rotated, the handwheel 30 drives the guide rod B19 to rotate, the guide rod B19 drives the two end face cam supports 17 to move through threads (because the threads at the two ends of the guide rod B19 rotate in opposite directions, when the guide rod B19 rotates, the two end face cam supports 17 synchronously approach the signature aligning plate 4 or move away from the signature aligning plate 4), the end face cam supports 17 are adjusted, the end face cam 3 can move along with the end face cam supports 17, and the signature aligning plate 4 moves to adapt to the width change of signatures, so that the effect of aligning various signatures is achieved.

As shown in fig. 8, a platen cylinder bracket 32 is horizontally disposed above the conveyor belt assembly 10, and the platen cylinder bracket 32 is disposed along the length direction of the conveyor belt assembly 10; the two ends of the paper pressing plate cylinder support 32 are respectively provided with a paper pressing plate cylinder 15, a rodless cylinder 7 is arranged between the two paper pressing plate cylinders 15, and the two ends of the rodless cylinder 7 are respectively fixed on the paper pressing plate cylinder support 32; the slide block of the rodless cylinder 7 is connected with two large paper pressing wheels 8 through a pressure wheel connecting rod 33.

Two ends of the paper pressing plate cylinder support 32 are respectively connected to the cross bars on the two inverted L-shaped small frames 6, and the lower ends of the vertical bars of the two small frames 6 are connected to the same side of the rack 1;

the end parts of the piston rods of the two paper pressing plate cylinders 15 are provided with pressing blocks 34, the bottoms of the two pressing blocks 34 are respectively connected to the two opposite ends of the paper pressing plate 5, and the two large paper pressing wheels 8 are respectively positioned on the two opposite sides of the paper pressing plate 5.

The rodless cylinder 7 can move on the small frame 6 according to the actual size of the signature 14. The large paper pressing wheel 8 on the rodless cylinder 7 can move back and forth, and the large paper pressing wheel 8 presses the upper surface of the continuous fish scale-shaped signature 14, so that the signature 14 can be stably and continuously conveyed.

The position of the small paper pressing wheel 9 is positioned at the transition section between the conveying belt component 10 and the accelerating belt component 11, the height of the small paper pressing wheel 9 can be adjusted up and down, the small paper pressing wheel 9 is a movable wheel and can press the upturned signatures, and the continuous signatures are guaranteed to be stably conveyed at the transition section.

One end of the emergency exit cylinder 13 is hinged with an emergency exit cylinder fulcrum 21, and the other end of the emergency exit cylinder 13 is hinged with a fulcrum on an emergency exit small wall plate 25. When white paper, test pages and waste signature to be discharged are met, the image-text detection photoelectric sensor arranged on the printing machine at the front end of the method detects the signatures, signals are sent out, the cylinder rod of the emergency exit cylinder 13 is contracted, the small emergency exit wall plate 25 moves downwards, the belt component 12 moves downwards, and the signatures are discharged. Meanwhile, the photoelectric sensor sends a signal to the paper pressing plate cylinder 15, the paper pressing plate cylinder 15 is installed on the small frame 6, and the paper pressing plate cylinder 15 drives the paper pressing plate 5 on the cylinder to press downwards to press the signatures which do not need to be discarded at the back. After the platen 5 is raised, a complete process of ejecting signatures from the emergency exit is completed.

The invention is used in the configuration mode of the stacking and bundling machine of the neat section emergency exit device in the high-speed stacking and bundling machine system, comprising:

1. at least one left and right signature aligning device is needed at the front end of the device, which is beneficial to ensuring that the left and right signatures are aligned to enter the novel method.

2. The front end of the device at least needs an emergency exit device of one signature to eliminate the abnormal signatures such as the blank paper, the test page, the trial printing waste page and the like in the front.

3. A left and right signature aligning device is needed at the rear end of the device, which is beneficial to the left and right signature alignment after the novel method is adopted.

4. At least one low belt conveyor is provided to enable successive signatures to enter the front end of the apparatus.

Claims

1. A neat section emergency exit device for piling up in bundling machine system at a high speed, its characterized in that: the automatic signature feeding machine comprises a rack, wherein a conveying belt component, an accelerating belt component and an emergency exit belt component are sequentially arranged on the rack along the conveying direction of signatures; the conveying belt assembly is respectively provided with a signature adjusting assembly and a paper pressing wheel assembly, and a transition wheel assembly is arranged at the transition position of the conveying belt assembly and the accelerating belt assembly; an emergency exit cylinder is arranged at the emergency exit belt assembly.

2. The collated signature emergency exit device for use in a high speed stacking baler system of claim 1, wherein: the signature adjusting assembly comprises an end face cam shaft, two opposite sides of the end face cam shaft are respectively provided with a guide rod A and a guide rod B in parallel, and two ends of the end face cam shaft are respectively provided with an end face cam; the surface of the end face cam is provided with a circle of groove, a small end face cam shaft is embedded in the groove, and the small end face cam shaft is connected with the outer side face of the book aligning and pasting plate through a book connecting frame;

3. The collated signature emergency exit device for use in a high speed stacking baler system of claim 2, wherein: the guide rod A is a polished rod; threads are respectively arranged at two ends of the guide rod B, and the rotating directions of the threads at the two ends of the guide rod B are opposite; threaded holes are respectively formed in the joints of the two end face cam supports and the guide rod B, and the guide rod B is matched with the end face cam supports through threads; one end of the guide rod B is connected with a hand wheel; the end face cam bracket is matched with the guide rod A through the unthreaded hole.

4. The collated signature emergency exit device for use in a high speed stacking baler system of claim 3, wherein: the end face cam support comprises two positioning plates, the two positioning plates are connected with the guide rod A and the guide rod B to form a square frame, and the end face cam is just framed inside the end face cam support.

5. The collated signature emergency exit device for use in a high speed stacking baler system of claim 3, wherein: one end of each of the two book aligning plates, which is close to the book inlet, is in a horn shape.

6. The collated signature emergency exit device for use in a high speed stacking baler system of claim 1, wherein: the paper pressing wheel assembly comprises a paper pressing plate cylinder support, and the paper pressing plate cylinder support is arranged along the length direction of the conveying belt assembly; two ends of the paper pressing plate cylinder support are respectively provided with a paper pressing plate cylinder, a rodless cylinder is arranged between the two paper pressing plate cylinders, and two ends of the rodless cylinder are respectively fixed on the paper pressing plate cylinder support; the slide block of the rodless cylinder is connected with two large paper pressing wheels through a pressing wheel connecting rod; two ends of the paper pressing plate cylinder support are respectively connected to the cross rods on the two inverted L-shaped small frames, and the lower ends of the vertical rods of the two small frames are connected to the same side of the rack; the end parts of the piston rods of the two paper pressing plate cylinders are provided with pressing blocks, the bottoms of the two pressing blocks are respectively connected to the two opposite ends of the paper pressing plate, and the two large paper pressing wheels are respectively positioned on the two opposite sides of the paper pressing plate.

7. The collated signature emergency exit device for use in a high speed stacking baler system of claim 1, wherein: the transition wheel assembly comprises a small paper pressing wheel frame, the small paper pressing wheel frame is fixed on one side of the rack and is located in a transition area between the conveying belt assembly and the accelerating belt assembly, and a small paper pressing wheel is arranged on the small paper pressing wheel frame.