CN212475508U - Double-channel stacking material receiving machine - Google Patents

Abstract

The utility model relates to the technical field of material collecting devices, and discloses a dual-channel stacking material collecting machine, label material paper is respectively input to a guide section of a first conveying belt and a second conveying belt at intervals through a lane dividing pressing plate, so that the shunting of the label material paper is realized, a gap is formed between stacks, the taking and the transferring are convenient, the material paper on the first conveying belt is collected in a first paper receiving plate from an outlet of an end section, the material paper on the second conveying belt is collected in a second paper receiving plate, when the material paper in the first paper receiving plate and the second paper receiving plate is fully received, a first driving mechanism drives a carriage to slide along a horizontal sliding rail, the paper receiving plate which is fully received is moved to the side, an adjacent empty paper receiving plate is moved to the outlets of the first conveying belt and the second conveying belt along with corresponding supports to continue to receive the material, then the first paper receiving plate and the second paper receiving plate are manually taken down, and thus, the continuous material receiving can be realized, need not to shut down and wait for getting the material, can realize continuity of production, and production efficiency is higher.

Description

Double-channel stacking material receiving machine

Technical Field

The utility model relates to a material collecting device's technical field especially relates to a binary channels stack material receiving machine.

Background

At present, automation is gradually started in the field of manufacturing printed products such as label paper, and stacking of the printed products such as the label paper is an essential link in the automatic production process.

The stack material receiving machine sets up the exit end at cross cutting equipment for printed matter products such as arrangement label paper are collected to the stack, printed matter product finished product stacks such as present label paper mainly adopt single station to carry out continuous stack, because continuous ejection of compact speed is very fast, there is not the interval between the material stack, inconvenient transfer of taking, and after the stack platform is collected and is full of the finished product, need the manual work to go to take off the label paper finished product that the stack is full and carry out start production again, will produce the time of waiting at this in-process, unable continuity production, the production efficiency is reduced.

Disclosure of Invention

The utility model aims at providing a binary channels stack receipts material machine to solve the inconvenient taking of current continuous stack, and need shut down and wait that the manual work takes off the finished product and unable continuity production, lead to the problem that production efficiency reduces.

In order to solve the problems, the utility model provides a dual-channel stacking material receiving machine, which comprises a frame, and a lane conveying device and a paper receiving device which are arranged on the frame, wherein the lane conveying device comprises a first conveying belt and a second conveying belt, the first conveying belt comprises an initial section, a guide section and a tail end section, the guide section is arranged obliquely downwards, the second conveying belt and the initial section are arranged on the same horizontal line, and a lane pressing plate for controlling the feeding paper to enter the second conveying belt and the guide section at intervals is arranged at the joint of the initial section and the guide section;

the paper receiving device comprises a horizontal sliding rail, a dragging plate arranged on the horizontal sliding rail in a sliding mode, a first driving mechanism used for driving the dragging plate to slide along the horizontal sliding rail, and a plurality of paper receiving assemblies arranged on the dragging plate side by side, wherein each paper receiving assembly comprises a support, a first paper receiving plate and a second paper receiving plate which are arranged on the support at intervals up and down, the support is arranged on the dragging plate, the first paper receiving plate is located at an outlet of the tail end section, and the second paper receiving plate is located at an outlet of the second conveying belt.

Furthermore, a vertical slide rail is arranged on the carriage, and the support is slidably arranged on the vertical slide rail.

Furthermore, the back of the support is provided with a sliding part in sliding fit with the vertical sliding rail, and the carriage is provided with a second driving mechanism for driving the sliding part of the support to slide along the vertical sliding rail.

Furthermore, the first driving mechanism comprises a belt conveying assembly transversely arranged on the rack, a connecting block is arranged on the carriage, and the connecting block is connected with a belt of the belt conveying assembly.

The paper receiving device comprises a paper receiving device, a first conveying belt and a second conveying belt, wherein the paper receiving device is arranged at the tail end of the paper receiving device, the first conveying belt is arranged at the tail end of the paper receiving device, and the second conveying belt is arranged at the tail end of the paper receiving device.

Furthermore, the first material guiding device and the second material guiding device respectively comprise a conveying shaft, a pressing plate shaft and a synchronous belt structure used for driving the conveying shafts of the first material guiding device and the second material guiding device to rotate synchronously, the pressing plate shaft is arranged above the conveying shaft, and a plurality of tail pressing plates are arranged on the pressing plate shaft at intervals.

Furthermore, a plurality of press rollers are arranged on the first conveying belt and the second conveying belt at intervals.

Furthermore, the bottom of the frame is provided with casters.

The utility model provides a binary channels stack material receiving machine, lane conveyor and paper collecting device in including the frame and locating the frame, label stock paper is inputed from the initial segment entrance of first conveyer belt in succession after accomplishing through cross cutting machine cross cutting, guide section and the second conveyer belt of first conveyer belt are inputed label stock paper respectively to the clamp plate interval of lane through the lane, thereby realize the reposition of redundant personnel to label stock paper, make the clearance have between the stack, conveniently take the transfer, stock paper on the end section of first conveyer belt is collected in first paper dish from the exit of end section, stock paper on the second conveyer belt is collected in second paper dish, after first stock paper that connects in paper dish and the second paper dish that connects is full, a actuating mechanism drive planker slides along horizontal slide rail, make the paper dish that connects the paper collecting assembly that connects full label stock paper remove to the next door, another adjacent paper dish that connects moves to the export of first conveyer belt and second conveyer belt along with the support along with the paper collecting assembly simultaneously Department continues to connect the material, then the manual work takes off the label material paper of full-load first paper receiving dish and second paper receiving dish, so, can realize incessant connecing the material in succession, need not to stop to wait for getting the material, can realize continuity of production, and production efficiency is higher.

Drawings

Fig. 1 is a schematic structural view of a dual-channel stacking material receiving machine in an embodiment of the present invention.

Fig. 2 is a schematic view of another perspective structure of the dual channel stacking and receiving machine in the embodiment of the present invention.

Fig. 3 is a schematic view of another perspective structure of the dual channel stacking and receiving machine in the embodiment of the present invention.

Fig. 4 is a schematic structural view of a material guiding device in an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of the tail pressure plate in the embodiment of the present invention.

Fig. 6 is a partially enlarged view of a portion a in fig. 1.

In the figure, 1, a frame; 2. a lane conveyor; 3. a paper receiving device; 4. a first material guide device; 5. a second material guiding device; 11. a caster wheel; 21. a first conveyor belt; 22. a second conveyor belt; 23. a lane pressing plate; 24. a compression roller; 211. an initial segment; 212. a guide section; 213. a tip segment; 301. a horizontal slide rail; 302. a carriage; 303. a first drive mechanism; 304. a paper splicing assembly; 305. a vertical slide rail; 306. a second drive mechanism; 307. connecting blocks; 308. a belt; 3041. a support; 3042. a first paper receiving tray; 3043. a second paper receiving tray; 401. a transfer shaft; 402. a platen shaft; 403. a synchronous belt structure; 404. and a tail pressure plate.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "top", "bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1 to 6, a dual-channel stacking and receiving machine according to an embodiment of the present invention is schematically shown, which includes a frame 1, and a lane conveyor 2 and a receiving device 3 disposed on the frame 1, the lane conveyor 2 includes a first conveyor belt 21 and a second conveyor belt 22, generally, the first conveyor belt 21 and the second conveyor belt 22 are mounted on the frame 1 through wall plates, the first conveyor belt 21 includes a starting section 211, a guiding section 212 and an end section 213, the guiding section 212 is disposed obliquely downward, the second conveyor belt 22 and the starting section 211 are disposed on the same horizontal line, and a lane pressing plate 23 for controlling the label paper to enter the second conveyor belt 22 and the guiding section 212 at an interval is disposed at a joint of the starting section 211 and the guiding section 212, specifically, the label paper pressed by the lane pressing plate 23 enters the guiding section 212 of the first conveyor belt 21 under pressure to be conveyed downward, the label base paper which is not pressed down by the lane-dividing pressing plate 23 can be directly horizontally conveyed to the second conveying belt 22 through the starting section 211 because the label base paper has certain rigidity; the paper receiving device 3 includes a horizontal slide rail 301, a carriage 302 slidably disposed on the horizontal slide rail 301, a first driving mechanism 303 for driving the carriage 302 to slide along the horizontal slide rail 301, and a plurality of paper receiving assemblies 304 disposed side by side on the carriage 302, each paper receiving assembly 304 includes a support 3041, a first paper receiving tray 3042 and a second paper receiving tray 3043 disposed on the support 3041 at an upper and lower interval, the support 3041 is disposed on the carriage 302, the first paper receiving tray 3042 is located at an outlet of the end section 213, and the second paper receiving tray 3043 is located at an outlet of the second conveyor belt 22.

Specifically, after the label stock paper is cut by the die cutter, the label stock paper is continuously fed from the inlet of the start section 211 of the first conveyor belt 21, and the label stock paper is fed to the guide section 212 of the first conveyor belt 21 and the second conveyor belt 22 via the lane dividing press plate 23 at intervals, so that the label stock paper is branched, a gap is formed between the stacks, the label stock paper is convenient to take and transfer, the stock paper on the end section 213 of the first conveyor belt 21 is collected in the first paper receiving tray 3042 from the outlet of the end section 213, the stock paper on the second conveyor belt 22 is collected in the second paper receiving tray 3043, when the stock paper in the first paper receiving tray 3042 and the second paper receiving tray 3043 of the paper receiving assembly 304 is full, the first driving mechanism 303 drives the carriage 302 to slide along the horizontal slide rail 301, so that the paper receiving tray (the first paper receiving tray 3042 and the second paper receiving tray 3043) of the paper receiving assembly 304 full of the label stock paper is moved to the side, meanwhile, the empty paper receiving tray of another adjacent paper receiving assembly moves to the outlets of the first conveying belt 21 and the second conveying belt 22 along with the corresponding support to continue receiving the materials, and then the label paper of the full-load first paper receiving tray 3042 and the full-load second paper receiving tray 3043 is manually taken down.

The first driving mechanism 303 includes a belt conveying assembly transversely disposed on the rack 1, the carriage 302 is provided with a connecting block 307, the connecting block 307 is connected with a belt 308 of the belt conveying assembly, a belt pulley of the belt conveying assembly drives the belt 308 to run, and then the carriage 302 is driven to slide along the horizontal slide rail 301, so that the ordered continuous receiving of each paper receiving assembly 304 on the carriage 302 is realized, the belt pulley is driven by a servo motor, and the belt 308 is a synchronous belt, so that the accurate positioning of each paper receiving assembly 304 on the carriage 302 is realized.

Further, since the paper has a certain thickness, in order to ensure smooth receiving of the paper each time, the carriage 302 is provided with the vertical slide rail 305, and the support 3041 is slidably disposed on the vertical slide rail 305, so that when the first paper receiving tray 3042 and the second paper receiving tray 3043 receive one paper, the support 3041 correspondingly descends along the vertical slide rail 305 by a certain distance, thereby preventing the paper from blocking the exit of the lane dividing and conveying device 2 and preventing the paper from entering the paper receiving tray smoothly. Specifically, the back of the support 3041 is provided with a sliding portion in sliding fit with the vertical slide rail 305, the carriage 302 is provided with a second driving mechanism 306 for driving the sliding portion of the support 3041 to slide along the vertical slide rail 305, and the second driving mechanism 306 drives the sliding portion to slide up and down along the vertical slide rail 305, so as to ensure the smoothness of paper receiving of the first paper receiving tray 3042 and the second paper receiving tray 3043 on the support 3041, and the second driving mechanism 306 in this embodiment is a servo motor.

The dual-channel stacking and receiving machine in this embodiment further includes a first guiding device 4 and a second guiding device 5 for guiding the paper from the lane conveying device 2 to the paper receiving device 3, the first guiding device 4 is disposed at the outlet of the end section 213, the second guiding device 5 is disposed at the outlet of the second conveying belt 22, and the first guiding device 4 and the second guiding device 5 can enable the paper to smoothly enter the first paper receiving tray 3042 and the second paper receiving tray 3043. Specifically, the first material guiding device 4 and the second material guiding device 5 each include a conveying shaft 401, a pressing plate shaft 402 and a synchronous belt structure 403 for driving the conveying shaft 401 of the first material guiding device 4 and the second material guiding device 5 to rotate synchronously, the pressing plate shaft 402 is disposed above the conveying shaft 401, a plurality of tail pressing plates 404 are disposed on the pressing plate shaft 402 at intervals, when the paper is conveyed to the outlet through the conveying shaft 401, the tail pressing plates 404 can apply a certain pressure to the paper above the paper to ensure the smoothness of the paper, so as to prevent the paper from bending at the outlet, preferably, the tail pressing plates 404 in this embodiment are detachably disposed on the pressing plate shaft 402, and a plurality of connecting holes are disposed on the tail pressing plates 404 along the length extending direction thereof, so that the length of the tail pressing plates 404 can be adjusted by selecting different connecting holes to match the paper with different sizes. Referring to fig. 4, a transfer shaft 401 is connected to the outlets of the first and second conveyor belts 21 and 22 through a fixing base.

In this embodiment, a plurality of press rollers 24 are arranged on the first conveyor belt 21 and the second conveyor belt 22 at intervals, and the material paper is pressed tightly on the conveyor belt through each press roller 24 to prevent the material paper from moving or falling off in the conveying process, so that the conveying stability of the material paper is ensured. Preferably, casters 11 are provided at the bottom of the frame 1 to facilitate movement of the two-lane stacker reclaimer to accommodate different die cutting machines.

It should be understood that the terms "first", "second", etc. are used herein to describe various information, but the information should not be limited to these terms, and these terms are only used to distinguish one type of information from another. For example, "first" information may also be referred to as "second" information, and similarly, "second" information may also be referred to as "first" information, without departing from the scope of the present invention.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims (8)

1. A double-channel stacking and receiving machine is characterized by comprising a rack, and a lane separating and conveying device and a paper receiving device which are arranged on the rack, wherein the lane separating and conveying device comprises a first conveying belt and a second conveying belt, the first conveying belt comprises an initial section, a guide section and a tail end section, the guide section is arranged obliquely downwards, the second conveying belt and the initial section are arranged on the same horizontal line, and a lane separating pressing plate for controlling paper to enter the second conveying belt and the guide section at intervals is arranged at the joint of the initial section and the guide section;

the paper receiving device comprises a horizontal sliding rail, a dragging plate arranged on the horizontal sliding rail in a sliding mode, a first driving mechanism used for driving the dragging plate to slide along the horizontal sliding rail, and a plurality of paper receiving assemblies arranged on the dragging plate side by side, wherein each paper receiving assembly comprises a support, a first paper receiving plate and a second paper receiving plate which are arranged on the support at intervals up and down, the support is arranged on the dragging plate, the first paper receiving plate is located at an outlet of the tail end section, and the second paper receiving plate is located at an outlet of the second conveying belt.

2. The dual path stacking receiver of claim 1, wherein the carriage has a vertical slide rail, and the support is slidably disposed on the vertical slide rail.

3. The dual path stacking receiver as claimed in claim 2, wherein the back of the support frame is provided with a sliding part slidably engaged with the vertical slide rail, and the carriage is provided with a second driving mechanism for driving the sliding part of the support frame to slide along the vertical slide rail.

4. The dual channel stacking receiver of claim 3, wherein the first driving mechanism comprises a belt conveying assembly transversely disposed on the frame, the carriage is provided with a connecting block, and the connecting block is connected with a belt of the belt conveying assembly.

5. The dual path stacker receiver of claim 4, further comprising a first guide device and a second guide device for guiding the paper from said lane conveyor to said paper receiving device, said first guide device being disposed at an exit of said end section, said second guide device being disposed at an exit of said second conveyor.

6. The dual-channel stacking and receiving machine as claimed in claim 5, wherein the first material guiding device and the second material guiding device each include a conveying shaft, a pressing plate shaft and a synchronous belt structure for driving the conveying shafts of the first material guiding device and the second material guiding device to rotate synchronously, the pressing plate shaft is disposed above the conveying shaft, and a plurality of tail pressing plates are disposed at intervals on the pressing plate shaft.

7. The dual path stacking receiver as claimed in claim 6, wherein a plurality of press rollers are spaced on both the first conveyor belt and the second conveyor belt.

8. The dual path stacker reclaimer of claim 7 wherein said frame is provided with castors at the bottom thereof.

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