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CN221520188U - Conveying device for automatic lamination of instant noodles and seasoning bags - Google Patents

Conveying device for automatic lamination of instant noodles and seasoning bags Download PDF

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Publication number
CN221520188U
CN221520188U CN202323190459.6U CN202323190459U CN221520188U CN 221520188 U CN221520188 U CN 221520188U CN 202323190459 U CN202323190459 U CN 202323190459U CN 221520188 U CN221520188 U CN 221520188U
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China
Prior art keywords
conveying device
belt
conveying
seasoning
frame
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Application number
CN202323190459.6U
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Chinese (zh)
Inventor
李明爽
任家忠
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Qingdao Soonforward Packaging Machinery Co ltd
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Qingdao Soonforward Packaging Machinery Co ltd
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Priority to CN202323190459.6U priority Critical patent/CN221520188U/en
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Publication of CN221520188U publication Critical patent/CN221520188U/en
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Abstract

The utility model belongs to the technical field of packaging machinery, and relates to a conveying device for automatic lamination of instant noodles and a material bag, which comprises a frame, a material receiving belt conveying device, a material sorting belt conveying device, a material eliminating belt conveying device, a shifting fork conveying belt device, a material bag conveying device, a shifting rod conveying device, externally hung transmission systems and a PLC (programmable logic controller) control system, wherein each conveying device and each transmission system are fixedly arranged on the frame, the PLC control system is fixed on the side surface of the rear end of the frame and is respectively connected with the externally hung transmission system, the material receiving belt conveying device, the material sorting belt conveying device and the material eliminating belt conveying device in an electric way to control the actions of the externally hung transmission systems, the material receiving belt conveying device, the material sorting belt conveying device and the material eliminating belt conveying device; the tail end is provided with a parallel track deflector rod conveying device, the blocks at the back of the collection are stacked above the material bags, unqualified products caused by sliding of the material bags are avoided, and the production efficiency is improved; the novel energy-saving environment-friendly energy-saving vehicle.

Description

Conveying device for automatic lamination of instant noodles and seasoning bags
Technical field:
The utility model belongs to the technical field of packaging machinery, relates to a conveying device for automatically laminating instant noodles and material bags, and in particular relates to an automatic conveying device capable of realizing the collection and the forward conveying of the instant noodles and the corresponding material bags.
The background technology is as follows:
In the instant noodle packaging process, noodle blocks conveyed by a production line are required to be orderly arranged in a single row, and are gathered together with various material bags thrown by a throwing machine to form a whole to be packaged, the whole to be packaged is conveyed to a packaging machine for packaging, and the series of throwing, conveying and gathering are realized on a conveying device. The traditional conveying device is single-channel feeding, the material bag is directly put on the surface block moving forwards, and in the process, when the put material bag shifts, tremble of the conveying device and shake of a chain shifting fork can generate unqualified products due to sliding of the material bag, even the machine is stopped. Therefore, a conveying device for automatically laminating dough blocks and material bags is urgently needed, two conveying channels are arranged on the conveying device to convey the dough blocks and the material bags respectively, the dough blocks and the material bags are assembled in a moving state, the dough blocks are stacked above the material bags after the dough blocks and the material bags are assembled, unqualified products caused by sliding of the material bags are avoided, and production efficiency is improved.
The invention comprises the following steps:
The utility model aims to overcome the defects and the shortcomings of the prior art, and designs a conveying device for automatically laminating instant noodles and a material bag, so that the problem that the material bag slides easily during traditional single-channel conveying is solved, and the problem that dough cakes which are retained and move out of a conveying channel cannot return to the conveying channel is solved.
In order to achieve the above object, the main structure of the present utility model comprises: the device comprises a frame, a receiving belt conveying device, a sorting belt conveying device, a material removing belt conveying device, a shifting fork conveying device, a material bag conveying device, a shifting rod conveying device, an externally hung transmission system and a PLC (programmable logic controller) control system, wherein each conveying device and each transmission system are fixedly arranged on the frame; a receiving belt conveying device, a seven-section material arranging belt conveying device with the same structure and a shifting fork conveying belt device are fixedly installed from the front end of the frame to the rear in sequence; the material package conveyor parallel arrangement is in reason material belt conveyor, shift fork conveyer belt device's one side, and shift lever conveyor sets up at shift fork conveyer belt device and material package conveyor's back, and material belt conveyor that disappears sets up in material receiving belt conveyor's top to fix in the frame.
The material receiving belt conveying device comprises a motor, a material receiving driving wheel, a material receiving front roller, a material receiving rear roller and a material receiving tensioning roller, wherein the motor drives the material receiving tensioning roller to rotate, so that the material receiving belt rotates; the discharge device capable of rotating is arranged on the frame on the side face of the material receiving belt, an output shaft of the debugging motor is vertically and downwards fixedly arranged on a fixed plate of the discharge device, the debugging motor drives the discharge driving wheel, the discharge front roller and the discharge rear roller to rotate, the lateral material arranging belt is enabled to rotate, the cylinder fixed on the frame pushes the discharge device to block a material receiving belt channel, and meanwhile the lateral material arranging belt rotates, so that a surface block falls on a discharge hopper to realize discharge.
The main structure of each section of material arranging belt conveying device comprises a material arranging motor arranged on a frame, a material arranging roller driven by the material arranging motor, a material arranging front roller, a material arranging rear roller, a material arranging tensioning roller, a material arranging conveying belt, a material arranging shifting fork conveying belt device and a material arranging tensioning roller. Every section reason material belt conveyor is last to be provided with detection module, detects the running state of face piece to with operation information transfer for PLC control system, when the face piece is overstocked, PLC control system control cylinder promotes discharge apparatus and blocks up the dead with receiving material belt passageway, and side direction reason material belt rotates simultaneously, makes the face piece fall on the discharge hopper, realizes unloading.
The material removing belt conveying device comprises two sections of conveying channels, wherein the front section of conveying channel is fixedly arranged above the material receiving belt through a bracket, the rear section of conveying channel is fixedly arranged above the first section of material arranging belt conveying device, the two sections of conveying channels are respectively driven by respective servo motors, the belt is respectively rotated through rotation of a head wheel and a tail wheel, and the heights of the first section of material arranging belt conveying device, the rear section of conveying channel and the front section of conveying channel are sequentially increased and are respectively conveyed to the rear section of conveying channel and the first section of material arranging belt conveying device through inclined slide ways. A large amount of materials unloaded are placed on the front section conveying path, are flattened through belt rotation, then slide into the rear section conveying path, are flattened through further arrangement and slide into the first section material arranging belt conveying device, enter the next procedure, effectively solve the problem of stacking dough blocks, avoid manual single arrangement of dough blocks, and effectively reduce labor cost.
The shifting fork conveying belt device drives a dough block conveying chain to convey forwards by a head chain wheel, a transition chain wheel, a tail chain wheel and a front tensioning chain wheel, shifting forks are fixed on the dough block conveying chain at equal intervals, a supporting plate is fixed on a frame, the shifting forks are higher than the supporting plate, the supporting plate is used for supporting instant noodles, the two sides of the shifting fork conveying belt device are used for blocking the instant noodles by using the supporting plate fixed on the frame, and a chain guide rail fixed on the frame supports the upper chain and the lower chain; the chain wheel is coaxial with the chain wheel, and the shifting fork conveying belt device is driven by the externally hung transmission system.
The external hanging transmission system is formed by driving a chain to rotate through a first chain wheel, a second chain wheel, a third chain wheel, a fourth chain wheel, a fifth chain wheel and front and back tensioning chain wheels, the first chain wheel is fixed on a main shaft, and the main shaft is powered by a main motor controlled by a PLC control system.
The material package conveying device drives a chain to rotate and convey forwards through a driving chain wheel, a tail chain wheel and a tensioning chain wheel on a main shaft, shifting forks are fixed on the chain at equal intervals, the shifting forks are higher than a material package supporting plate, the material package supporting plate adopts a corrugated guide plate and is fixed on a frame, the material package is placed between two adjacent shifting forks and moves forwards along a guiding material package supporting plate, and the main shaft is powered by a main motor controlled by a PLC control system.
The driving rod conveying device is used for pushing the conveyed dough blocks onto the material bag conveying device, and the main structure of the driving rod conveying device comprises a chain wheel, wherein the chain wheel drives two side driving chain wheels on a first shaft and two side tail chain wheels on a second shaft to rotate, so that two side chains are driven to rotate, and driving rods transversely fixed on the two side chains are arranged at equal intervals and run along with the chains; the two ends of the first shaft and the second shaft are respectively fixed on two side supporting plates, the two side supporting plates are fixed on the frame, and the stainless steel chain is guided by a nylon guide rail plate fixed on the frame; the protective cover is arranged on the supporting plate and is opened and closed by two gas springs; the guide bottom plate is fixed on a frame below the deflector rod, the height of the guide bottom plate is higher than that of the material bag supporting plate, the first strip-shaped guide plate and the second strip-shaped guide plate are parallelly fixed on the guide bottom plate, one end of the guide bottom plate receives the tail of the surface block supporting plate, the other end of the guide bottom plate guides the material bag supporting plate, the two sides of the guide bottom plate guide the surface blocks by the first guide plate and the second guide plate, and the deflector rods which are arranged at equal intervals push the surface blocks forwards, so that the surface blocks conveyed by the material bag conveying device are conveyed into a shifting fork of the material bag conveying device, are pressed above the material bag, and are then pushed into the packaging machine by a chain and the shifting fork of the material bag conveying device. The transmission is regulated by a mechanical structure, so that the stability is good, and the safety and reliability are realized.
When the automatic feeding device is used, the fed dough blocks are fed onto the material arranging belt conveying device, are fed into the shifting fork conveying belt device through the seven sections of material arranging belt conveying devices, enter between the first guide plates and the second guide plates on the guide bottom plate of the shifting lever conveying device at the tail end, move forwards along the first guide plates and the second guide plates under the pushing of the shifting lever, are fed into the shifting fork of the material bag conveying device, are pressed above a material bag, and are then pushed into the packaging machine by the chains and the shifting fork of the material bag conveying device. When the surface block is accumulated and pressed due to faults in conveying, a detection signal of the shifting fork conveying belt device is transmitted to the PLC control system, an air cylinder of the receiving belt conveying device is controlled to push the discharging device to block a receiving belt channel, meanwhile, the lateral material arranging belt rotates, the surface block falls on the discharging hopper to realize discharging, after the faults or accumulated surface block phenomenon is eliminated, the PLC control system controls the air cylinder to pull the discharging device back, and the conveying device runs normally.
According to the utility model, two conveying channels are arranged to respectively convey the dough blocks and the material bags, a parallel track deflector rod conveying device is arranged at the tail end, the dough blocks are pushed onto the material bag conveying track along the parallel track, the dough blocks and the material bags are assembled in the moving state of the conveying device, the dough blocks are stacked above the material bags after the assembly, unqualified products caused by the falling of the material bags are avoided, and the production efficiency is improved; the material removing and conveying device is arranged above the material receiving belt frame body, so that the discharged retention surface blocks are effectively discharged into the material arranging and conveying device, and the problem of difficult accumulation and material removing of the retention surface blocks is solved; the novel energy-saving environment-friendly energy-saving vehicle.
Description of the drawings:
fig. 1 is a schematic front view of a main structure of the present utility model.
Fig. 2 is a schematic top view of the main structure of the present utility model.
FIG. 3 is a cross-sectional view of section A-A of the present utility model.
Fig. 4 is a schematic front view of a main structure of the lever conveying device of the present utility model.
Fig. 5 is a schematic top view of a main structure of the lever conveying device of the present utility model.
Fig. 6 is a layout of the present utility model applied to a packing machine.
The specific embodiment is as follows:
the utility model is further illustrated by the following examples in conjunction with the accompanying drawings:
example 1:
The embodiment of a conveying device for automatic lamination of instant noodles and seasoning packets, the main structure of the conveying device comprises: the device comprises a frame 101, a receiving belt conveying device 102, a sorting belt conveying device 103, a material removing belt conveying device 104, a shifting fork conveying belt device 105, a material bag conveying device 106, a shifting lever conveying device 107, an externally hung transmission system 108 and a PLC control system 109, wherein each conveying device and each transmission system are fixedly arranged on the frame 101, the PLC control system 109 is fixed on the side surface of the rear end of the frame 101 and is respectively connected with the externally hung transmission system 108, the receiving belt conveying device 102, the sorting belt conveying device 103 and the material removing belt conveying device 104 in an electric way to control the actions of the externally hung transmission system 108, the receiving belt conveying device 102, the material removing belt conveying device 103 and the material removing belt conveying device 104; a receiving belt conveying device 102, a seven-section material arranging belt conveying device 103 with the same structure and a shifting fork conveying belt device 105 are fixedly installed from the front end of the frame 101 to the rear in sequence; the material package conveying device 106 is arranged on one side of the material arranging belt conveying device 103 and the shifting fork conveying device 105 in parallel, the shifting lever conveying device 107 is arranged behind the shifting fork conveying device 105 and the material package conveying device 106, and the material eliminating belt conveying device 104 is arranged above the material receiving belt conveying device 102 and is fixed on the frame 101.
The receiving belt conveying device 102 comprises a motor 4 for driving a receiving driving wheel 35, a receiving front roller 3, a receiving rear roller 3 and a receiving tensioning roller 33 to rotate, so that the receiving belt rotates; the discharge device capable of rotating is arranged on the side frame 101 of the receiving belt, the output shaft of the debugging motor 5 is vertically and downwards fixedly arranged on the fixed plate of the discharge device, the debugging motor 5 drives the discharge driving wheel 46, the discharge front roller 45 and the discharge rear roller 48 to rotate, the lateral material arranging belt is enabled to rotate, the cylinder 47 fixed on the frame 101 pushes the discharge device to block a material receiving belt channel, meanwhile, the lateral material arranging belt is enabled to rotate, and the surface block falls on the discharge hopper 36 to realize discharge.
The main structure of each section of material sorting belt conveying device 103 comprises a material sorting motor 30 arranged on a frame 101, a material sorting roller 31, a material sorting front roller 12, a material sorting rear roller 12 and a material sorting tensioning roller 10, which are driven by the material sorting motor, to be conveyed back to the next section of material feeding belt, seven sections of material sorting belt conveying are carried out, and dough blocks are sequentially conveyed into a shifting fork conveying belt device 105. Each section of material arranging belt conveying device 103 is provided with a detection module, the running state of the dough blocks is detected, running information is transmitted to the PLC control system 109, when the dough blocks are kept motionless, the PLC control system 109 controls the air cylinder 47 to push the discharging device to block the material receiving belt channel, and meanwhile the lateral material arranging belt rotates, so that the dough blocks fall on the discharging hopper 36, and discharging is achieved.
The material removing belt conveying device 104 comprises two sections of conveying channels, the front section conveying channel 34 is fixedly arranged above the material receiving belt through the support 7, the rear section conveying channel 32 is fixedly arranged above the first section material arranging belt conveying device 103, the two sections of conveying channels are respectively driven by respective servo motors 37 and respectively rotate through the head pulley 8 and the tail pulley 6 to enable the belt to rotate, and the heights of the first section material arranging belt conveying device 103, the rear section conveying channel 32 and the front section conveying channel 34 are sequentially increased and are respectively conveyed to the rear section conveying channel 32 and the first section material arranging belt conveying device 103 through inclined slide ways 9. The unloaded mass materials are placed on the front section conveying path, are flattened through belt rotation, then slide into the rear section conveying path, further are flattened through arrangement, slide into the first section material arranging belt conveying device 103, enter the next procedure, effectively solve the problem of stacking dough blocks, avoid manual single arrangement of dough blocks, and effectively reduce labor cost.
The shifting fork conveying belt device 105 drives the dough conveying chain to convey forwards by the head chain wheel 49, the transition chain wheel 15, the tail chain wheel 26 and the front and rear tensioning chain wheels 22, shifting forks are fixed on the dough conveying chain at equal intervals, the supporting plates 50 are fixed on the machine frame 101, the shifting forks are higher than the supporting plates 50, the supporting plates 50 are used for supporting instant noodles, the supporting plates 38 fixed on the machine frame 101 are used for blocking the instant noodles on two sides, and the chain guide rails 54 fixed on the machine frame 101 are used for supporting the upper and lower chains; fourth sprocket 24 is coaxial with sprocket 49 and drives fork conveyor 105 via an external drive train 108.
The externally hung transmission system 108 is formed by driving a chain to rotate through a first chain wheel 20, a second chain wheel 19, a third chain wheel 18, a fourth chain wheel 24, a fifth chain wheel 55 and a front and rear tensioning chain wheel 22, wherein the first chain wheel 20 is fixed on a main shaft 42, and the main shaft 42 is powered by a main motor controlled by a PLC control system 109.
The material package conveying device 106 drives a chain to rotate and convey forwards through a driving chain wheel 21, a tail chain wheel 56 and a tensioning chain wheel 22 on the main shaft 42, shifting forks are fixed on the chain at equal intervals, the shifting forks are higher than the material package supporting plates 51, the material package supporting plates 51 are fixed on the frame 101 by adopting corrugated guide plates, the material package is placed between two adjacent shifting forks and moves forwards along the guiding material package supporting plates, and the main shaft 42 is powered by a main motor controlled by the PLC control system 109.
The deflector rod conveying device 107 is used for pushing the conveyed dough blocks onto the material bag conveying device 106, and the main structure of the deflector rod conveying device comprises a chain wheel 61, a driving chain wheel 63 on two sides of a first shaft 62 and a tail chain wheel 65 on two sides of a second shaft 64, so as to drive two chains 66 on two sides to rotate, and deflector rods 67 transversely fixed on the chains 66 on two sides are arranged at equal intervals and run along with the chains 66; the two ends of the first shaft 62 and the second shaft 64 are respectively fixed on two side support plates 68, the two side support plates 68 are fixed on a frame 101, and the stainless steel chain 66 is guided by a nylon guide rail plate 69 fixed on the frame 101; the protective cover 70 is mounted on the support plate 68 and is opened and closed by two gas springs 71; the guide bottom plate 59 is fixed on the frame 101 below the deflector rod 67, the height is higher than that of the material bag supporting plate, the first strip-shaped guide plate 57 and the second strip-shaped guide plate 58 are fixed on the guide bottom plate 59 in parallel, one end receives the tail part of the surface block supporting plate 50, the other end guides the material bag supporting plate 51, the deflector rods 67 which are arranged at equal intervals are used for guiding the surface blocks by the first guide plate 57 and the second guide plate 58 on two sides to push the surface blocks forward, so that the surface blocks conveyed by the material bag conveying device 106 are conveyed between the shifting forks of the material bag conveying device 106, pressed above the material bags, and then pushed into the packaging machine by the chains and the shifting forks of the material bag conveying device 106. The transmission is regulated by a mechanical structure, so that the stability is good, and the safety and reliability are realized.
In use, the receiving belt conveyor 102 conveys the conveyed dough blocks to the sorting belt conveyor 103, the dough blocks pass through the seven sections of sorting belt conveyors 103 to the shifting fork conveyor 105, enter between the first guide plate 57 and the second guide plate 58 on the guide bottom plate 59 of the shifting lever conveyor 107 at the tail end, move forward along the first guide plate 57 and the second guide plate 58 under the pushing of the shifting lever 67, and are integrated between shifting forks of the material bag conveyor 106, pressed above the material bags, and then pushed into the packaging machine by chains and shifting forks of the material bag conveyor 106. When the surface block is accumulated during conveying, a detection signal of the shifting fork conveying belt device 105 is transmitted to the PLC control system 109, the cylinder 47 of the material receiving belt conveying device 102 is controlled to push the discharging device to block a material receiving belt channel, meanwhile, the lateral material arranging belt rotates, the surface block falls on the discharging hopper 36 to realize discharging, after the fault or accumulated surface block phenomenon is eliminated, the PLC control system 109 controls the cylinder 47 to pull back the discharging device, and the conveying device operates normally.
The structures not disclosed in this embodiment are all structures existing in the prior art.
Example 2:
The conveying device for automatic lamination of instant noodles and material bags is arranged on a packaging machine, the input end of the conveying device is in butt joint with a noodle block collator, and the side surface of the conveying device is in butt joint with an automatic bag throwing machine. Can be widely applied to the production of foods such as instant noodles and the like. The bread collator and the automatic bag throwing machine are in the prior art and adopt mature products sold in the prior market.

Claims (7)

1. The conveying device is characterized in that the main structure comprises a frame, a receiving belt conveying device, a material arranging belt conveying device, a material eliminating belt conveying device, a shifting fork conveying belt device, a material bag conveying device, a shifting rod conveying device, an externally hung transmission system and a PLC control system, wherein each conveying device and each transmission system are fixedly arranged on the frame, the PLC control system is fixed on the side surface of the rear end of the frame and is respectively connected with the externally hung transmission system, the receiving belt conveying device, the material arranging belt conveying device and the material eliminating belt conveying device in an electric way to control the actions of the externally hung transmission system, the receiving belt conveying device, the material arranging belt conveying device and the material eliminating belt conveying device; a receiving belt conveying device, a seven-section material arranging belt conveying device with the same structure and a shifting fork conveying belt device are fixedly installed from the front end of the frame to the rear in sequence; the material package conveyor parallel arrangement is in reason material belt conveyor, shift fork conveyer belt device's one side, and shift lever conveyor sets up at shift fork conveyer belt device and material package conveyor's back, and material belt conveyor that disappears sets up in material receiving belt conveyor's top to fix in the frame.
2. The automatic stacking and conveying device for instant noodles and seasoning bags according to claim 1, wherein the shifting rod conveying device is used for pushing the conveyed noodle blocks onto the seasoning bag conveying device, the main structure of the conveying device comprises a sprocket wheel for driving two side driving sprockets on a first shaft and two side tail sprockets on a second shaft to rotate, so that two side chains are driven to rotate, and shifting rods transversely fixed on the two side chains are arranged at equal intervals and run along with the chains; the two ends of the first shaft and the second shaft are respectively fixed on two side supporting plates, the two side supporting plates are fixed on the frame, and the stainless steel chain is guided by a nylon guide rail plate fixed on the frame; the protective cover is arranged on the supporting plate and is opened and closed by two gas springs; the guide bottom plate is fixed on the frame below the deflector rod, the height is higher than that of the material bag supporting plate, the first strip-shaped guide plate and the second strip-shaped guide plate are parallelly fixed on the guide bottom plate, one end receives the tail of the surface block supporting plate, the other end guides the material bag supporting plate, the two sides are guided by the first guide plate and the second guide plate to guide the surface block, the deflector rod which is arranged at equal intervals pushes the surface block forwards, the surface block conveyed by the material bag conveying device is conveyed between the shifting forks of the material bag conveying device, and the surface block is pressed above the material bag.
3. The conveying device for automatic lamination of instant noodles and seasoning bags according to claim 2, wherein the conveying device for the seasoning belts comprises two sections of conveying channels, a front section of conveying channel is fixedly arranged above a material receiving belt through a bracket, a rear section of conveying channel is fixedly arranged above a first section of material sorting belt conveying device, the two sections of conveying channels are respectively driven by respective servo motors, the conveying channels are respectively driven by head wheels and tail wheels to rotate, the heights of the first section of material sorting belt conveying device, the rear section of conveying channel and the front section of conveying channel are sequentially increased, and the conveying channels are respectively conveyed to the rear section of conveying channel and the first section of material sorting belt conveying device through inclined slide ways.
4. A conveying device for automatically laminating instant noodles and material bags according to claim 2 or 3, wherein the material receiving belt conveying device comprises a motor for driving a material receiving driving wheel, a material receiving front roller, a material receiving rear roller and a material receiving tensioning roller to rotate, so that the material receiving belt rotates; the discharge device capable of rotating is arranged on the frame on the side face of the material receiving belt, an output shaft of the debugging motor is vertically and downwards fixedly arranged on a fixed plate of the discharge device, the debugging motor drives the discharge driving wheel, the discharge front roller and the discharge rear roller to rotate, the lateral material arranging belt is enabled to rotate, the cylinder fixed on the frame pushes the discharge device to block a material receiving belt channel, and meanwhile the lateral material arranging belt rotates, so that a surface block falls on a discharge hopper to realize discharge.
5. A conveying device for automatically laminating instant noodles and seasoning bags according to claim 2 or 3, wherein the main structure of each section of the conveying device for seasoning belts comprises a seasoning motor arranged on a frame, a seasoning drum driven by the seasoning motor to drive a seasoning front roller and a seasoning rear roller and a seasoning tensioning roller to be conveyed backwards to the next section of the feeding belt, and the dough blocks are sequentially conveyed into a shifting fork conveying belt device through seven sections of seasoning belts.
6. The automatic stacking conveying device for instant noodles and material bags according to claim 2 or 3, wherein the shifting fork conveying belt device is characterized in that a head chain wheel, a transition chain wheel, a tail chain wheel and a front tensioning chain wheel drive a noodle block conveying chain to convey forwards, shifting forks are fixed on the noodle block conveying chain at equal intervals, a supporting plate is fixed on a rack, the shifting forks are higher than the supporting plate, the supporting plate is used for supporting the instant noodles, the two sides of the supporting plate are used for blocking the instant noodles by the supporting plate fixed on the rack, and a chain guide rail fixed on the rack supports upper and lower chains; the chain wheel is coaxial with the chain wheel, and the shifting fork conveying belt device is driven by the externally hung transmission system.
7. The automatic stacking conveying device for instant noodles and seasoning bags according to claim 2 or 3, wherein the seasoning bag conveying device drives a chain to rotate and convey forwards through a driving chain wheel, a tail chain wheel and a tensioning chain wheel on a main shaft, shifting forks are fixed on the chain at equal intervals, the shifting forks are high in discharging bag supporting plates, the seasoning bag supporting plates are corrugated guide plates and fixed on a frame, seasoning bags are placed between two adjacent shifting forks and move forwards along the guiding seasoning bag supporting plates, and the main shaft is powered by a main motor controlled by a PLC control system.
CN202323190459.6U 2023-11-27 2023-11-27 Conveying device for automatic lamination of instant noodles and seasoning bags Active CN221520188U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202323190459.6U CN221520188U (en) 2023-11-27 2023-11-27 Conveying device for automatic lamination of instant noodles and seasoning bags

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202323190459.6U CN221520188U (en) 2023-11-27 2023-11-27 Conveying device for automatic lamination of instant noodles and seasoning bags

Publications (1)

Publication Number Publication Date
CN221520188U true CN221520188U (en) 2024-08-13

Family

ID=92202969

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202323190459.6U Active CN221520188U (en) 2023-11-27 2023-11-27 Conveying device for automatic lamination of instant noodles and seasoning bags

Country Status (1)

Country Link
CN (1) CN221520188U (en)

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