CN219156076U

CN219156076U - Card conveying and waste discharging mechanism

Info

Publication number: CN219156076U
Application number: CN202320247689.2U
Authority: CN
Inventors: 杨卫东
Original assignee: Guangdong Jinxuanfa Packaging Technology Co ltd
Current assignee: Guangdong Jinxuanfa Packaging Technology Co ltd
Priority date: 2023-02-18
Filing date: 2023-02-18
Publication date: 2023-06-09
Anticipated expiration: 2033-02-18

Abstract

The utility model provides a card conveying and waste discharging mechanism which comprises a front conveying belt structure, a rear conveying belt structure and a waste discharging structure, wherein the rear conveying belt structure is arranged at the tail end of the front conveying belt structure, waste discharging gaps are formed between the front end of the rear conveying belt structure and the tail end of the front conveying belt structure, the waste discharging structure is used for discharging unqualified cards from the waste discharging gaps, and the waste discharging structure is arranged above the waste discharging gaps; the card conveying and waste discharging mechanism can automatically discharge the cards, and saves labor cost.

Description

Card conveying and waste discharging mechanism

Technical Field

The utility model relates to the technical field of waste discharge conveying machinery, in particular to a card conveying and waste discharge mechanism.

Background

The quality requirements of the existing children books or learning cards are higher and higher, and most of the existing children books or learning cards are printed by hard paper sheets. When the hard paper sheet is manufactured, the problems of poor printing or repeated printing of bar code numbers and the like are detected, and then unqualified products are removed, and the unqualified products are removed manually at present, so that the labor cost is high.

Disclosure of Invention

In order to solve the problems in the prior art, the utility model provides a card conveying and waste discharging mechanism which can automatically discharge waste of cards.

The utility model provides a card conveying and waste discharging mechanism, which comprises a front conveying belt structure, a rear conveying belt structure and a waste discharging structure;

the rear conveyor belt structure is arranged at the tail end of the front conveyor belt structure, and a waste discharge gap is formed between the front end of the rear conveyor belt structure and the tail end of the front conveyor belt structure;

the waste discharging structure is used for discharging unqualified cards from the waste discharging gap, and the waste discharging structure is arranged above the waste discharging gap.

In order to further implement the utility model, a transport introduction structure is also included for introducing cards to the front conveyor structure.

In order to further realize the utility model, the conveying and guiding structure comprises a guiding mounting plate, a guiding lower roller and a guiding upper roller, wherein the guiding lower roller and the guiding upper roller are rotatably arranged on the side surface of the guiding mounting plate, and a card clearance is arranged between the guiding lower roller and the guiding upper roller.

In order to further realize the utility model, the front conveying belt structure comprises a front conveying mounting plate, a front conveying driving roller, a front conveying driven roller and a front conveying belt, wherein the front conveying driving roller and the front conveying driven roller are rotatably arranged on the side surfaces of two ends of the front conveying mounting plate, and the front conveying belt is wound on the front conveying driving roller and the front conveying driven roller and is tensioned.

In order to further realize the utility model, the front conveying belt structure further comprises a pressing assembly, the pressing assembly is arranged above the rear part of the front conveying belt, the pressing assembly comprises a pressing installation block, a pressing rod, a pressing spring and a pressing wheel, the pressing installation block is arranged on the front conveying installation plate, the pressing installation block is provided with a pressing sliding groove, two ends of the pressing rod are provided with pressing sliding blocks, the pressing sliding blocks are slidably arranged in the pressing sliding groove, one end of the pressing spring is arranged on the inner top surface of the pressing sliding groove, the other end of the pressing spring is arranged on the top surface of the pressing sliding block, the pressing wheel is rotatably arranged on the pressing rod, and the lower end of the pressing wheel is attached to the front conveying belt.

In order to further realize the utility model, the rear conveying belt structure comprises a rear conveying mounting plate, a rear conveying driving roller, a rear conveying driven roller and a rear conveying belt, wherein the rear conveying driving roller and the rear conveying driven roller are rotatably arranged on the side surfaces of two ends of the rear conveying mounting plate, and the rear conveying belt is wound on the rear conveying driving roller and the rear conveying driven roller and is tensioned.

In order to further realize the utility model, the tail end of the rear conveying belt structure is provided with a receiving hopper.

In order to further realize the utility model, the waste discharging structure comprises a waste discharging mounting plate, a waste discharging motor, a waste discharging connecting rod, a waste discharging rotating rod and a waste discharging baffle plate, wherein the waste discharging motor is arranged on the waste discharging mounting plate, the output shaft of the waste discharging motor is provided with a waste discharging connecting rotary table, the waste discharging rotating rod is rotatably arranged on the waste discharging mounting plate and is positioned above a waste discharging gap, the end part of the waste discharging rotating rod is provided with the waste discharging connecting rod, one end of the waste discharging connecting rod is eccentrically connected and rotatably connected with the waste discharging connecting rotary table, the other end of the waste discharging connecting rod is rotatably connected with the tail end of the waste discharging connecting rod, and the waste discharging baffle plate is arranged on the waste discharging rotating rod.

The utility model can automatically discharge the waste of the card by arranging the front conveyer belt structure, the rear conveyer belt structure, the waste discharge structure and the like, thereby saving the labor cost.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a portion of the structure of the present utility model;

fig. 3 is a schematic structural view of the press assembly of the present utility model.

Fig. 1 to 3 include:

a transport introduction structure 1; an introduction mounting plate 11; leading into the lower drum 12; an upper roller 13; a front conveyor belt structure 2; a front conveying mounting plate 21; a front conveying drive roller 22; a front conveying driven roller 23; a front conveyor belt 24; a pressing assembly 25; a press mounting block 251; a press bar 252; a pressing spring 253; pinch roller 254; a pressing spring 255; a pressing slide 256; a rear conveyor belt structure 3; a waste discharging structure 4; a waste discharge mounting plate 41; a waste discharge motor 42; waste discharging link 43; a waste discharge lever 44; a waste discharge baffle 45; waste discharge connection carousel 46; and a waste connection rod 47.

Detailed Description

As shown in fig. 1 to 3, the utility model discloses a card conveying and waste discharging mechanism for conveying cards forwards and discharging unqualified cards, which comprises a conveying and guiding structure 1, a front conveying belt structure 2, a rear conveying belt structure 3 and a waste discharging structure 4,

the conveying and guiding structure 1 is used for guiding cards into a front conveying belt structure, the conveying and guiding structure 1 comprises a guiding and guiding mounting plate 11, a guiding and guiding lower roller 12 and a guiding and guiding upper roller 13, the guiding and guiding lower roller 12 and the guiding and guiding upper roller 13 are rotatably arranged on the side face of the guiding and guiding mounting plate 11, a card gap is reserved between the guiding and guiding lower roller 12 and the guiding and guiding upper roller 13, cards can pass through, and the guiding and guiding lower roller 12 is driven by a motor.

The front conveying belt structure 2 is arranged at the tail end of the conveying leading-in structure 1, the front conveying belt structure 2 comprises a front conveying mounting plate 21, a front conveying driving roller 22, a front conveying driven roller 23, a front conveying belt 24 and a pressing assembly 25, the front conveying driving roller 22 and the front conveying driven roller 23 are rotatably arranged on the side surfaces of two ends of the front conveying mounting plate 21, the front conveying belt 24 is wound on the front conveying driving roller 22 and the front conveying driven roller 23 and is tensioned, the front conveying driving roller 22 is driven by a motor, the pressing assembly 25 is arranged above the rear part of the front conveying belt 24, the pressing assembly 25 comprises a pressing mounting block 251, a pressing rod 252, a pressing spring 253 and a pressing wheel 254, the pressing mounting block 251 is fixedly arranged on the front conveying mounting plate 21, the pressing mounting block 251 is provided with a pressing sliding groove 255, two ends of the pressing rod 252 are provided with pressing sliding blocks 256, one ends of the pressing spring 253 are arranged on the inner top surfaces of the pressing sliding grooves 255, the other ends of the pressing spring 255 are arranged on the pressing sliding blocks 256, the pressing wheels 254 are rotatably arranged on the top surfaces of the pressing rod 253, the pressing assembly 254 and the lower ends of the pressing rod 254 are attached to the front conveying assembly 24, and the pressing assembly can be prevented from being influenced by pressing cards, and the front conveying assembly is pressed.

The rear conveyer belt structure 3 is arranged at the tail end of the front conveyer belt structure 2, the front end of the rear conveyer belt structure 3 and the tail end of the front conveyer belt structure 3 are provided with waste discharge gaps, the rear conveyer belt structure 3 comprises a rear conveyer mounting plate 31, a rear conveyer driving roller 32, a rear conveyer driven roller 33 and a rear conveyer belt 34, the rear conveyer driving roller 32 and the rear conveyer driven roller 33 are rotatably arranged at the side surfaces of two ends of the rear conveyer mounting plate 31, the rear conveyer belt 34 is wound on the rear conveyer driving roller 32 and the rear conveyer driven roller 33 and is tensioned, the rear conveyer driving roller 32 is driven by a motor, and the tail end of the rear conveyer belt structure is provided with a receiving hopper 35.

The waste discharging structure 4 is used for discharging unqualified cards from the waste discharging gap. The waste structure is arranged above the waste gap, the waste structure 4 is fixedly arranged on the front conveying mounting plate 21, the waste structure 4 comprises a waste mounting plate 41, a waste motor 42, a waste connecting rod 43, a waste rotating rod 44 and a waste baffle 45, the waste mounting plate 41 is fixedly arranged on the front conveying mounting plate 21, the waste motor 42 is fixedly arranged on the waste mounting plate 41, an output shaft of the waste motor 42 is provided with a waste connecting rotary table 46, the waste rotating rod 44 is rotatably arranged on the waste mounting plate 41 and is positioned above the waste gap, a waste connecting rod 47 is arranged at the end part of the waste rotating rod 44, one end of the waste connecting rod 43 is eccentrically connected with the waste connecting rotary table 46 and is rotatably connected with the other end of the waste connecting rod 43, and the waste baffle 45 is fixedly arranged on the waste rotating rod 44; when the card conveying device is used, if the card is qualified in detection, the waste discharge motor does not work, and the card is conveyed to the rear conveying belt structure from the front conveying belt structure, if the card is unqualified in detection, the waste discharge motor works to drive the waste discharge connecting rod to rotate, so that the waste discharge rotating rod is driven to rotate, and then the waste discharge baffle is driven to rotate downwards, so that the waste discharge baffle stops the card from moving forwards, and the card falls into a waste discharge gap.

When the card pressing device is used, the card is conveyed to the pressing component forwards, the pressing component flattens the card, when the card is in a waste discharging structure, if the card is unqualified in detection, the waste discharging structure works to enable the card to fall into a waste discharging gap, if the card is qualified in detection, the card enters a rear conveying belt structure, and finally falls into a receiving hopper.

The foregoing is a further detailed description of the utility model in connection with the preferred embodiments, and it is not intended that the utility model be limited to the specific embodiments described. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the utility model, and these should be considered to be within the scope of the utility model.

Claims

1. The utility model provides a card is carried and is arranged useless mechanism which characterized in that: comprises a front conveyer belt structure, a rear conveyer belt structure and a waste discharging structure;

2. The card feed waste mechanism of claim 1, wherein: the card guiding device also comprises a conveying guiding structure, wherein the conveying guiding structure is used for guiding the card into the front conveying belt structure.

3. The card feed waste mechanism of claim 2, wherein: the conveying and guiding structure comprises a guiding mounting plate, a guiding lower roller and a guiding upper roller, wherein the guiding lower roller and the guiding upper roller are rotatably arranged on the side face of the guiding mounting plate, and a card gap is formed between the guiding lower roller and the guiding upper roller.

4. The card feed waste mechanism of claim 1, wherein: the front conveying belt structure comprises a front conveying mounting plate, a front conveying driving roller, a front conveying driven roller and a front conveying belt, wherein the front conveying driving roller and the front conveying driven roller are rotatably arranged on the side surfaces of two ends of the front conveying mounting plate, and the front conveying belt is wound on the front conveying driving roller and the front conveying driven roller and is tensioned.

5. The card feed waste mechanism of claim 4, wherein: the front conveying belt structure further comprises a pressing assembly, the pressing assembly is arranged above the rear portion of the front conveying belt and comprises a pressing installation block, a pressing rod, a pressing spring and a pressing wheel, the pressing installation block is arranged on the front conveying installation plate and is provided with a pressing sliding groove, pressing sliding blocks are arranged at two ends of the pressing rod and slidably arranged in the pressing sliding groove, one end of the pressing spring is arranged on the inner top surface of the pressing sliding groove, the other end of the pressing spring is arranged on the top surface of the pressing sliding block, the pressing wheel is rotatably arranged on the pressing rod, and the lower end of the pressing wheel is attached to the front conveying belt.

6. The card feed waste mechanism of claim 1, wherein: the rear conveying belt structure comprises a rear conveying mounting plate, a rear conveying driving roller, a rear conveying driven roller and a rear conveying belt, wherein the rear conveying driving roller and the rear conveying driven roller are rotatably arranged on the side surfaces of two ends of the rear conveying mounting plate, and the rear conveying belt is wound on the rear conveying driving roller and the rear conveying driven roller and is tensioned.

7. The card feed waste mechanism of claim 1, wherein: the tail end of the rear conveying belt structure is provided with a receiving hopper.

8. The card feed waste mechanism of claim 1, wherein: the waste discharging structure comprises a waste discharging mounting plate, a waste discharging motor, a waste discharging connecting rod, a waste discharging rotating rod and a waste discharging baffle plate, wherein the waste discharging motor is arranged on the waste discharging mounting plate, an output shaft of the waste discharging motor is provided with a waste discharging connecting rotary disc, the waste discharging rotating rod is rotatably arranged on the waste discharging mounting plate and located above a waste discharging gap, the end part of the waste discharging rotating rod is provided with the waste discharging connecting rod, one end of the waste discharging connecting rod is eccentrically connected and rotatably connected with the waste discharging connecting rotary disc, and the other end of the waste discharging connecting rod is rotatably connected with the tail end of the waste discharging connecting rod.