CN116374309A

CN116374309A - Printed matter count tipping arrangement

Info

Publication number: CN116374309A
Application number: CN202310412199.8A
Authority: CN
Inventors: 徐晓文
Original assignee: Dongguan Weixin Intelligent Equipment Co ltd
Current assignee: Dongguan Weixin Intelligent Equipment Co ltd
Priority date: 2023-04-17
Filing date: 2023-04-17
Publication date: 2023-07-04

Abstract

A printed matter counting and overturning device relates to the technical field of packaging equipment. It comprises the following steps: a feed conveyor; an acceleration mechanism comprising: a first sensing device and an accelerating device; the first conveying channel is used for conveying products which do not need to be turned over; a second transfer path for transferring and inverting the product; the shunt turnover plate mechanism is arranged at the rear end of the accelerating mechanism and can be connected with the first conveying channel or the second conveying channel in a switching way so as to change the conveying direction of products; the second transfer channel includes: the device comprises an ascending conveying section, a vertical overturning section, a descending conveying section and a second sensing device arranged at the bottom end of the vertical overturning section; the product entering the second conveying channel is conveyed to the vertical overturning section through the ascending conveying section, and then is reversely conveyed to the descending conveying section, so that the product is conveyed out to finish overturning. By adopting the technical scheme, the counting batch automatic overturning of the printed matters can be realized, the overturning efficiency is improved, and the packaging cost is reduced.

Description

Printed matter count tipping arrangement

Technical Field

The invention relates to the technical field of packaging equipment, in particular to printed matter counting and overturning equipment.

Background

When some printed products are packaged, the products are required to be turned over firstly, the products which are not turned over and the turned-over products are stacked in a staggered mode to be packaged, so that the packaged products are more balanced in weight, the internal printed products are not easy to deform, and the later-stage quantity counting and distributing work of the products is utilized.

At present, manual operation is mostly adopted for the overturning work of the printing products, the overturning efficiency is low, the quantity of the printing products can be wrong, the labor cost is high, and improvement is urgently needed.

Disclosure of Invention

Aiming at the defects and shortcomings of the prior art, the invention provides the printed matter counting and overturning equipment which can realize automatic overturning of a set number of printed matters to replace manual overturning and has the advantages of reducing the packaging cost and improving the packaging efficiency.

In order to achieve the above purpose, the invention adopts the following technical scheme: a printed matter count tipping arrangement comprising:

a feed conveyor;

the acceleration mechanism sets up the rear end of feeding conveyer belt, includes: a first sensing device and an accelerating device; when the first sensing device senses a batch of products with set quantity, the accelerating device accelerates the batch of products to enable the batch of products to be separated from the subsequent products;

the first conveying channel is used for conveying products which do not need to be turned over;

the second conveying channel is used for conveying and overturning products, and the tail end of the second conveying channel is converged with the tail end of the first conveying channel;

the reposition of redundant personnel board turnover mechanism sets up the acceleration mechanism rear end includes: the flow dividing plate can be switched and connected with the first conveying channel or the second conveying channel under the action of the driving piece so as to change the conveying direction of products;

the second transfer channel includes: the device comprises an ascending conveying section, a vertical overturning section, a descending conveying section and a second sensing device arranged at the bottom end of the vertical overturning section; the product entering the second conveying channel is conveyed to the vertical overturning section through the ascending conveying section, and the vertical overturning section firstly conveys the product upwards until the second sensing device senses that the batch of products completely enter the vertical overturning section, and the vertical overturning section reversely conveys the product to the descending conveying section to convey the product out to finish overturning.

The invention is further provided with the first driving piece which is a first cylinder, and the acting end of the first driving piece is arranged in the middle of the bottom of the flow dividing plate; the first air cylinder pushes or pulls the flow dividing plate to rotate by taking one end, close to the accelerating mechanism, of the flow dividing plate as a center, so that the flow dividing plate inclines towards the second conveying channel or the first conveying channel, and the conveying direction of the product is changed.

The invention is further provided with a third sensing device at the front end of the first conveying channel to sense that each batch of products completely enter the first conveying channel; a fourth sensing device is arranged at the front end of the second conveying channel to sense that each batch of products completely enter the second conveying channel.

The invention further provides that the rear end of the junction of the tail ends of the first conveying channel and the second conveying channel is also provided with a discharging conveying belt.

The invention further provides that a confluence panel turnover mechanism is arranged between the discharging conveyor belt and the first conveying channel and between the discharging conveyor belt and the second conveying channel, and the confluence panel turnover mechanism comprises: a bus plate and a second driving member; the bus plate can be driven by the second driving piece to be in switching connection with the rear end of the first conveying channel or the second conveying channel, so that products can be output.

The invention further provides that a fifth sensing device is arranged above the confluence panel turnover mechanism so as to sense that each batch of products completely pass through the confluence panel.

The invention further provides that the junction of the ascending conveying section, the vertical overturning section and the descending conveying section is provided with the inverted V-shaped guide block, and the peak of the inverted V-shaped guide block is positioned on the side of the vertical overturning section, which is close to the ascending conveying section, so that the product can enter the descending conveying section more smoothly when the vertical overturning section conveys the product downwards.

The invention is further provided with a first conveying assembly and a second conveying assembly respectively arranged on two sides of the vertical overturning section, and products are clamped and conveyed through the first conveying assembly and the second conveying assembly;

the first transfer assembly includes: a first conveyor belt and a first roller set for assembling the first conveyor belt;

the second transfer assembly includes: a second conveyor belt and a second roller set for assembling the second conveyor belt.

The invention is further provided with a third conveying component and a fourth conveying component which are respectively arranged at two sides of the first conveying channel, and products are clamped and conveyed in the first conveying channel through the third conveying component and the fourth conveying component;

the two sides of the ascending conveying section are respectively provided with a fifth conveying assembly and a sixth conveying assembly, and products are clamped and conveyed in the ascending conveying section through the fifth conveying assembly and the sixth conveying assembly;

the product conveying device comprises a descending conveying section, wherein a seventh conveying assembly and an eighth conveying assembly are respectively arranged on two sides of the descending conveying section, and products are clamped and conveyed in the descending conveying section through the seventh conveying assembly and the eighth conveying assembly.

After the technical scheme is adopted, the invention has the beneficial effects that:

1. after the products passing through the second conveying channel pass through the ascending conveying section and are conveyed to the vertical overturning section, the vertical overturning section conveys the products downwards to the descending conveying section, so that automatic overturning of the products is realized, manual work is replaced, and overturning cost is reduced.

2. The conveying direction of the products is changed through the split-flow turning plate, the products which do not need to be turned over are conveyed to the first conveying channel, the products which need to be turned over are conveyed to the second conveying channel, so that automatic turning and finishing work of the products is realized, and the efficiency of packaging and turning the products is improved.

3. The acceleration mechanism accelerates each batch of products to enable the products to be separated from the next batch of products, the products can enter the second conveying channel or the first conveying channel in batches, the second sensing device senses that each batch of products completely enter the vertical conveying section, and the vertical overturning section downwards conveys the products to the descending conveying section so as to realize batch overturning of the products, so that overturning efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

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

FIG. 2 is an enlarged view of area A corresponding to FIG. 1;

FIG. 3 is an enlarged view of region B corresponding to FIG. 1;

fig. 4 is an enlarged view corresponding to region C of fig. 1;

fig. 5 is a schematic structural view of the first transfer passage and the second transfer passage of the present invention.

Reference numerals illustrate: 1. a feed conveyor; 2. a first transfer path; 3. a split-flow turning plate mechanism; 41. a first sensing device; 42. an acceleration device; 31. a diverter plate; 32. a first cylinder; 21. a third transfer assembly; 22. a fourth transfer assembly; 51. a rising transfer section; 52. a vertical overturning section; 53. a descending conveying section; 521. a first transfer assembly; 522. a second transfer assembly; 511. a fifth transfer assembly; 512. a sixth transfer assembly; 531. a seventh transfer assembly; 532. an eighth transfer assembly; 6. inverted V-shaped guide blocks; 7. a discharge conveyor belt; 8. a confluence panel turnover mechanism; 81. a bus plate; 82. and a second drive.

Detailed Description

The invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explanation of the present invention and is not to be construed as limiting the present invention, and those skilled in the art can make modifications to the present embodiment which do not contribute to the invention as required after reading the present specification, but are protected by the patent laws within the scope of the appended claims.

The embodiment relates to a printed matter count tipping arrangement, includes: a feeding conveyor belt 1, an accelerating mechanism, a first conveying channel 2, a second conveying channel and a split-flow turning plate mechanism 3.

The feeding conveyor belt 1 is arranged at the forefront end of the device and is used for feeding and conveying products to be treated.

The accelerating mechanism is arranged at the rear end of the feeding conveyor belt 1 and comprises: a first sensing device 41 and an acceleration device 42. When the first sensing device 41 senses a batch of products with a set quantity, the accelerating device 42 accelerates the batch of products, so that the batch of products and the subsequent products are separated, batch processing of the products is realized, and the processing efficiency of the products is improved.

In this embodiment, the acceleration device 42 is a variable speed acceleration conveyor, the speed of the acceleration device is equal to the speed of the feeding conveyor when the acceleration device does not accelerate, the speed of the acceleration conveyor becomes faster than the speed of the feeding conveyor when the first sensing device 41 senses that each batch of products completely enter the feeding conveyor, and the acceleration device accelerates each batch of products together, so that the acceleration device and the subsequent products are separated, and batch processing of the products is realized. Of course, in other embodiments, the accelerator 42 may take other configurations to achieve batch processing of the product.

The shunting plate turnover mechanism 3 is arranged at the rear end of the accelerating mechanism and comprises: a splitter plate 31 and a first drive. The diverter plate 31 can be switched to connect the first conveying channel 2 or the second conveying channel under the action of the driving member so as to change the conveying direction of the product. To transfer the products without flipping to the first transfer channel 2; and transmitting the products needing to be turned over to a second conveying channel to realize classification treatment of the products.

In this embodiment, the first driving member is a first cylinder 32, and the acting end is connected to the middle of the bottom of the splitter plate 31. When the air rod of the first air cylinder 32 stretches out, the splitter plate 31 is pushed to rotate by taking one end, close to the accelerating mechanism, of the splitter plate 31 as a center, and the splitter plate 31 is connected with the accelerating conveyor belt and the second conveying channel so as to convey products to the second conveying channel; when the air rod of the first air cylinder 32 is retracted, the diverter plate 31 is pulled to rotate about its end close to the acceleration mechanism, and at this time, the diverter plate 31 connects the acceleration conveyor and the first conveying path 2 to convey the product to the first conveying path 2. In other embodiments, of course, the first driving device may also be another mechanism to switch the product conveying direction.

The first conveying channel 2 is used for conveying the products without overturning and directly conveying the products to the outlet of the equipment.

In this embodiment, the third conveying assembly 21 and the fourth conveying assembly 22 are respectively disposed on two sides of the first conveying channel 2, and the product is conveyed in the first conveying channel 2 by clamping the product by the third conveying assembly 21 and the fourth conveying assembly 22, so that the conveying is more stable and smooth.

And the second conveying channel is used for conveying and overturning the products, and the tail end of the second conveying channel and the tail end of the first conveying channel 2 are converged at the outlet of the equipment so as to intensively arrange the processed products.

The second transfer passage includes: an ascending conveying section 51, a vertical overturning section 52, a descending conveying section 53 and a second sensing device. The second sensing device is disposed at the bottom end of the vertical overturning section 52 and is used for sensing that each batch of products completely enters the vertical overturning section 52 and sensing that each batch of products completely exits the vertical overturning section 52.

The product is transferred to the vertical overturning section 52 through the ascending transfer section 51, the vertical overturning section 52 transfers the product upwards, the second sensing device senses that the batch of products completely enter the vertical overturning section 52, the vertical overturning section 52 reversely transfers the product to the descending transfer section 53, the overturning of the product is completed, and the descending transfer section 53 transfers the product to the outlet. The second sensing device senses that the batch of products is completely sent out of the vertical overturning section 52, and the vertical overturning section 52 is reversely conveyed to wait for processing the next batch of products needing to be overturned.

In the present embodiment, both sides of the vertical flip section 52 are provided with a first transfer assembly 521 and a second transfer assembly 522, respectively. The first transfer assembly 521 includes: a first conveyor belt and a roller set for assembling the first conveyor belt; a second transfer assembly 522, comprising: the second conveyer belt and the roller group that is used for assembling the second conveyer belt. The product is transmitted between the first conveyor belt and the second conveyor belt, and the product is clamped by the first conveyor belt and the second conveyor belt, so that the product can not fall freely when being transmitted in the vertical overturning section 52, and the overturning process of stable and smooth completion of the product is realized.

In the present embodiment, the two sides of the ascending conveyor section 51 are respectively provided with a fifth conveyor assembly 511 and a sixth conveyor assembly 512, and the product is conveyed in the ascending conveyor section 51 by the fifth conveyor assembly 511 and the sixth conveyor assembly 512;

the seventh and

eighth transfer assemblies

531 and 532 are provided at both sides of the descending conveyor section 53, respectively, and the products are transferred at the descending conveyor section 53 by being clamped by the seventh and

eighth transfer assemblies

531 and 532. Such a mechanism makes the product more stable and smooth when being transported in the ascending and descending

conveyor sections

51, 53.

As a preferable scheme, an inverted V-shaped guide block 6 is arranged at the junction of the ascending conveying section 51, the vertical overturning section 52 and the descending conveying section 53, and is used for conveying the guided product from the ascending conveying section 51 to the vertical overturning section 52 and conveying the guided product from the vertical overturning section 52 to the descending conveying section 53, so that smooth conveying of the product in the second conveying channel is realized. Wherein, the peak of the inverted V-shaped guide block 6 is arranged on the side of the vertical overturning section 52 close to the ascending conveying section 51, so that the product can enter the descending conveying section more smoothly when the vertical overturning section 52 conveys the product downwards.

In this embodiment, a third sensing device is disposed at the front end of the first conveying channel 2 to sense that each batch of products completely enters the first conveying channel 2; a fourth sensing device is arranged at the front end of the second conveying channel to sense that each batch of products completely enter the second conveying channel. The third sensing device and the fourth sensing device sense to confirm that the batch of products smoothly enter the corresponding channel through the flow dividing plate 31, and the flow dividing plate 31 is driven to rotate to process the next batch of products.

In this embodiment, the rear end of the junction of the first conveying path 2 and the second conveying path tail end is also provided with an outfeed conveyor belt 7. A confluence turning plate mechanism 8 is also arranged between the discharging conveyor belt 7 and the first conveying channel 2 and the second conveying channel. The confluence flap mechanism 8 includes: a bus plate 81 and a second driving 82; the bus plate 81 can be driven by the second driving member 82 to be connected with the rear end of the first conveying channel 2 or the second conveying channel in a switching manner, so that products in the conveying channels can be conveyed on the discharging conveying belt 7 through the bus plate 81 to finish product output. A fifth sensing device is further arranged above the confluence panel turnover mechanism 8 to sense that each batch of products completely pass through the confluence panel 81, and the second driving device 82 drives the confluence panel 81 to switch and connect to a conveying channel of the next batch of products so as to prepare the output of the next batch of products.

The working principle of the invention is approximately as follows: the quantity of each batch of products is set, the feeding and the transmission of the products are completed through the feeding and the transmission belt, the set quantity of products are sensed to enter the acceleration conveyor belt through the first sensing device 41, and the acceleration conveyor belt accelerates the products to generate a certain interval with the follow-up products. The batch of products is transferred to the set first transfer path 2 or second transfer path on the diverting plate 31 which can switch the transfer direction of the products.

The products entering the first conveying channel 2 are directly conveyed to the discharging conveyor belt 7 through the bus plate 81 without overturning, and discharging is completed.

Products entering the second conveying channel are conveyed to the vertical overturning section 52 through the ascending conveying section 51, the vertical overturning section 52 firstly conveys the products upwards, when the second sensing device senses that the batch completely enters the vertical overturning section 52, the vertical overturning section 52 conveys the products downwards to the descending conveying section 53, and the products are conveyed to the discharging conveying belt 7 through the bus plate 81, so that discharging is completed.

The above description is only for the purpose of illustrating the technical solution of the present invention and not for the purpose of limiting the same, and other modifications and equivalents thereof by those skilled in the art should be included in the scope of the claims of the present invention without departing from the spirit and scope of the technical solution of the present invention.

Claims

1. A printed matter count tipping arrangement, comprising:

a feed conveyor (1);

acceleration mechanism sets up in the rear end of feeding conveyer belt (1), includes: a first induction device (41) and an acceleration device (42); when the first sensing device (41) senses a set quantity of products, the accelerating device (42) accelerates the products so as to lead the products to be separated from the follow-up products;

a first conveying channel (2) for conveying products without overturning;

the second conveying channel is used for conveying and overturning products, and the tail end of the second conveying channel is converged with the tail end of the first conveying channel (2);

the reposition of redundant personnel board turnover mechanism (3) is in the acceleration mechanism rear end includes: the flow dividing plate (31) and the first driving piece, wherein the flow dividing plate (31) can be switched and connected with the first conveying channel (2) or the second conveying channel under the action of the driving piece so as to change the conveying direction of products;

the second transfer channel includes: the device comprises an ascending conveying section (51), a vertical overturning section (52), a descending conveying section (53) and a second sensing device arranged at the bottom end of the vertical overturning section (52); products entering the second conveying channel are conveyed to the vertical overturning section (52) through the ascending conveying section (51), the vertical overturning section (52) conveys the products upwards firstly until the second sensing device senses that the batch of products completely enter the vertical overturning section (52), and the vertical overturning section (52) reversely conveys the products to the descending conveying section (53) to convey the products out to finish overturning.

2. The printed matter counting and turning device according to claim 1, characterized in that the first driving member is a first cylinder (32), the active end being intermediate the bottom of the diverter plate (31); the first air cylinder (32) pushes or pulls the flow dividing plate (31) to rotate around one end, close to the accelerating mechanism, of the flow dividing plate (31) to incline towards the second conveying channel or the first conveying channel (2) so as to change the conveying direction of products.

3. The printed matter counting and turning device according to claim 1, characterized in that a third sensing means is provided at the front end of the first conveying channel (2) to sense that each batch of products completely enters the first conveying channel (2); a fourth sensing device is arranged at the front end of the second conveying channel to sense that each batch of products completely enter the second conveying channel.

4. The printed matter counting and turning device according to claim 1, characterized in that the rear end of the junction of the first conveying channel (2) and the second conveying channel tail end is further provided with a discharge conveyor belt (7).

5. The printed matter counting and turning device according to claim 4, characterized in that a confluence flap mechanism (8) is further provided between the outfeed conveyor belt (7) and the first and second conveyor channels (2, 2), comprising: a bus plate (81) and a second driving member (82); the bus plate (81) can be driven by the second driving part (82) to be in switching connection with the rear end of the first conveying channel (2) or the second conveying channel so as to output products.

6. The print counting and turning device according to claim 5, characterized in that a fifth sensing means is also provided above the busbar flap mechanism (8) to sense that each batch of products passes completely through the busbar plate (81).

7. The printed matter counting and overturning device as claimed in claim 1, wherein an inverted-V-shaped guide block (6) is arranged at the junction of the ascending conveying section (51), the vertical overturning section (52) and the descending conveying section (53), and the peak of the inverted-V-shaped guide block (6) is positioned on the side, close to the ascending conveying section (51), of the vertical overturning section (52), so that the product can be smoothly fed into the descending conveying section (53) when the vertical overturning section (52) conveys the product downwards.

8. The printed matter counting and turning device according to claim 1, characterized in that a first conveying assembly (521) and a second conveying assembly (522) are respectively arranged at two sides of the vertical turning section (52), and products are clamped and conveyed through the first conveying assembly (521) and the second conveying assembly;

the first transfer assembly (521) includes: a first conveyor belt and a first roller set for assembling the first conveyor belt;

the second transfer assembly (522) includes: a second conveyor belt and a second roller set for assembling the second conveyor belt.

9. The print counting and flipping apparatus according to claim 8, wherein,

a third conveying assembly (21) and a fourth conveying assembly (22) are respectively arranged on two sides of the first conveying channel (2), and products are clamped and conveyed in the first conveying channel (2) through the third conveying assembly (21) and the fourth conveying assembly (22);

a fifth conveying assembly (511) and a sixth conveying assembly (512) are respectively arranged on two sides of the rising conveying section (51), and products are clamped and conveyed in the rising conveying section (51) through the fifth conveying assembly (511) and the sixth conveying assembly (512);

the two sides of the descending conveying section (53) are respectively provided with a seventh conveying assembly (531) and an eighth conveying assembly (532), and products are clamped and conveyed in the descending conveying section (53) through the seventh conveying assembly (531) and the eighth conveying assembly (532).