CN115739916A - Intelligent feeding system of food packaging sheet thermal forming workshop - Google Patents

Abstract

The invention discloses an intelligent feeding system of a food packaging sheet thermal forming workshop, which belongs to the field of food packaging sheet processing and comprises a feeding system and a waste recovery system, wherein a raw material ton bag of the feeding system is manually unloaded after being transported into the workshop by a vehicle, and the ton bag is unloaded by a crane after being manually unloaded.

Description

Intelligent feeding system of food packaging sheet thermal forming workshop

Technical Field

The invention relates to the field of food packaging sheet processing, in particular to an intelligent feeding system for a food packaging sheet thermal forming workshop.

Background

The food packaging sheet is a material for producing thermoformed products such as disposable plastic cups, trays, bowls, dishes, boxes and the like, and is widely applied to packaging in the fields of food, vegetables, fruits, beverages, dairy products, industrial parts and the like. Food packaging sheet material need use thermoforming process at the in-process of production and processing, and food packaging sheet material need use the extruder when processing through thermoforming process, come raw materials melting become even fuse-element of temperature and extrude constantly through the extruder, and the extruder need constantly feed it when processing to raw materials, in prior art, the feeding system of food packaging sheet material thermoforming workshop when using, the problem of feed pipe jam appears easily in the feeding process of continuation, and can not solve effectively the dust by the production of raw materials in the feeding process, simultaneously, processing to food packaging sheet material through thermoforming workshop, can't retrieve the waste material of output after food packaging sheet material production and processing and utilize, thereby the waste of resource has been caused.

Disclosure of Invention

The invention mainly aims to provide an intelligent feeding system for a food packaging sheet thermal forming workshop, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that:

an intelligent feeding system of a food packaging sheet thermal forming workshop comprises a feeding system and a waste recovery system, wherein a raw material ton bag of the feeding system is manually unloaded after being transported into the workshop by a vehicle, the ton bag is unloaded by a crane unloading vehicle after being manually unloaded, the unloaded raw material is conveyed into a storage bin through positive pressure, the raw material in the storage bin is conveyed into an automatic switching valve through negative pressure, dust generated during the conveying of the raw material is treated by a dust removing device, the raw material in the automatic switching valve is conveyed into a weighing and metering machine through negative pressure, the color master batch of the machine is put into the storage bin in a manual feeding mode, the color master batch in the storage bin is conveyed into the weighing and metering machine through negative pressure, is matched and mixed with the raw material and then enters an extruder through free falling, and the waste recovery system is divided into a first waste recovery system, a second waste recovery system and a third waste recovery system according to the characteristics generated by waste, the first waste recovery system carries out online waste crushing on leftover materials according to the scrap reported by the leftover materials, crushed materials are conveyed to a mistake-proof material selecting station through negative pressure, waste materials in the mistake-proof material selecting station are conveyed to a storage bin through negative pressure, waste materials in the storage bin are conveyed to the mistake-proof material selecting station through negative pressure, the waste materials in the mistake-proof material selecting station are conveyed to an automatic switching valve through negative pressure, the waste materials in the automatic switching valve are conveyed to a weighing and metering machine in a feeding system through negative pressure, the second waste recovery system carries out centralized crushing on the scrap materials according to the scrap products which can be continuously produced, the crushed materials are also conveyed to the mistake-proof material selecting station through centralized negative pressure, the crushed materials in the mistake-proof material selecting station are conveyed to a packing price through centralized negative pressure for packing, the packed materials are conveyed to a platform through an AGV, and the platform drops the packed materials into a transfer bin through a free falling body by a crane, packing material is carried to automatic switch valve through the negative pressure in the transfer bin, and automatic switch valve passes through the negative pressure and carries to feeding system's weighing meter built-in, third waste material recovery system smashes according to the alignment of the scrap that can not be used for production to carry the crushing material to mistake proofing selecting station through the negative pressure, crushing material passes through the negative pressure in the mistake proofing selecting station and carries to the storage silo, crushing material passes through the negative pressure in the storage silo and carries to mistake proofing selecting station, and crushing material passes through the negative pressure in the mistake proofing selecting station and carries to granulation line granulation, and carries the packing to packing frame through the positive pressure with the granule material.

Preferably, the raw materials of the feeding system are loaded in a ton bag mode and transported into a workshop through a truck, the truck stops at a designated position in the workshop and is manually operated to stretch and retract a fixed suspension arm on a lifting and unloading vehicle, the ton bag is lifted by the fixed suspension arm and enters a discharge port to unload the ton bag, the raw materials are conveyed into six one hundred cubic square meters of storage bins through positive pressure in a positive pressure blowing mode by a positive pressure Roots blower after unloading, dust in the storage bins is collected in a concentrated mode by connecting a pulse dust collector and the storage bins, the raw materials in the storage bins are conveyed into a pipeline of the automatic switching valve through negative pressure in a negative pressure suction mode by the negative pressure Roots blower, and the automatic switching valve conveys the raw materials into a weighing and metering machine through the negative pressure Roots blower.

Preferably, when the raw materials are conveyed into the weighing and metering machine, the color master batch or the plastic raw material which needs to be proportioned in production is put into a five-hundred-liter storage box in a manual feeding mode, the raw materials in the storage box are conveyed into the weighing and metering machine through a negative pressure Roots blower in a negative pressure mode to be proportioned, the proportioned mixed materials are mixed through a mixer, and the mixed materials are conveyed into an extruder for a table machine in a free falling mode after the mixed materials are mixed by the mixer.

Preferably, when the leftover materials produced by the food packaging sheet thermal forming workshop after machine adjustment and received by the waste recovery system are fixed waste reporting materials, the first waste recovery system is adopted and is crushed on line through an online crusher to obtain crushed materials.

Preferably, the crushed materials obtained by online crushing are conveyed to a first error-proof material selecting station by a negative pressure roots blower in a negative pressure mode, the crushed materials in the station are distributed to twenty fifty cubic square meters of storage bins by the first error-proof material selecting station in a negative pressure conveying mode by the negative pressure roots blower, the crushed materials in the storage bins are conveyed to a pipeline of the automatic switching valve in a negative pressure mode by the negative roots blower in the negative pressure mode, and the automatic switching valve distributes the crushed materials into a weighing and metering machine by the negative roots blower in a negative pressure mode to be proportioned and then remixes the materials to continue production.

Further preferably, the waste recovery system receives unqualified waste reports produced by the food packaging sheet thermoforming workshop during machine adjustment, and when the thickness and the size of the waste are different, the second waste recovery system is adopted to intensively crush the intensively recycled waste through the centralized crusher to obtain crushed materials.

Preferably, the crushed materials obtained by centralized crushing are conveyed to a first error-proof material selecting station by a negative pressure roots blower in a centralized negative pressure mode, the crushed materials in the station are distributed to ten ton bale packing frames in the first error-proof material selecting station by the negative pressure roots blower in a centralized negative pressure conveying mode, the crushed materials are conveyed to a ton bale platform by an Automatic Gain Control (AGC) system in an AGV mode, the ton bale platform lifts the ton bale on the platform by a traveling hoist and moves the ton bale to the upper part of a transfer bin with six square meters, the ton bale is placed into a special intermediate bin with six square meters in a free falling mode for storage, the crushed materials are conveyed to a pipeline of an automatic switching valve by the negative pressure roots blower in a negative pressure mode when the crushed materials are required to be used, and the crushed materials are distributed to a weighing and metering machine by the negative pressure roots blower in the automatic switching valve for proportioning and then are mixed again and continuously produced.

Preferably, when the waste recovery system receives waste reports that cannot be used for production after being produced in a food packaging sheet thermoforming workshop, the waste recovery system adopts a third waste recovery system, the waste reports are conveyed into a first error-proof material selection station by a negative-pressure roots blower in a negative pressure mode, the crushed materials in the first error-proof material selection station are distributed into twenty storage bins of fifty cubic square meters in a negative-pressure conveying mode by the negative-pressure roots blower, the crushed materials in the storage bins are conveyed into a third error-proof material selection station by the negative-pressure roots blower in a negative pressure mode, the crushed materials in the third error-proof material selection station are conveyed into a granulator of a granulation production line in a negative pressure mode by the negative-pressure roots blower, the crushed materials are prepared into granular finished products by the granulator, and the finished products after granulation are conveyed to a ton packaging frame by the positive-pressure roots blower for packaging treatment.

Further preferably, the storage bin is provided with a weighing sensor for identifying the amount of the material in the single storage bin, the radar is arranged above the single storage bin for measuring the material to know the height of the material pile, the storage bin is provided with two scale sensors, the first sensor is used for identifying whether the material pile is full in the storage bin, and the second sensor is used for identifying the use condition of the material.

Further preferably, the automatic switching valve is intelligently controlled by the system to distribute and fetch the materials of each storage bin, and simultaneously, commands are fed back to the bin of the manager to feed materials when no materials need to be fed.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the intelligent degree of the intelligent feeding system of the food packaging sheet thermal forming workshop, which is composed of the feeding system and the waste recovery system, is high, when the feeding system is used for feeding the extrusion equipment, dust in raw materials in the storage bin can be blown and floated in the air in a positive pressure blowing mode, so that the pulse dust collector has the opportunity of sucking the dust, the dust can be sucked into the interior to effectively solve the problem that the feeding system can generate dust, and the trouble of environmental protection is solved.

Drawings

FIG. 1 is a detailed view of the intelligent feeding system of the food packaging sheet thermoforming workshop of the present invention;

FIG. 2 is a detailed view of the intelligent feeding system of the present invention;

FIG. 3 is a detailed view of the waste recovery system of the present invention

FIG. 4 is a detailed view of a first waste recovery system of the present invention;

FIG. 5 is a detailed view of a second waste recovery system of the present invention;

FIG. 6 is a detailed view of the third waste recovery system of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained by combining the specific embodiments.

As shown in fig. 1-6, the intelligent feeding system for food packaging sheet thermoforming workshop comprises a feeding system and a waste recovery system, wherein ton packages of raw materials of the feeding system are transported into the workshop by a vehicle and then are manually unloaded, the ton packages are unloaded by a crane after being manually unloaded, the raw materials after being unloaded are conveyed into a storage bin by positive pressure, the raw materials in the storage bin are conveyed into an automatic switching valve by negative pressure, dust treatment during raw material conveying is carried out by a dust removing device, the raw materials in the automatic switching valve are conveyed into a weighing and metering machine by negative pressure, machine color concentrates are put into the storage bin by a manual feeding mode, the color concentrates in the storage bin are conveyed into the weighing and metering machine by negative pressure to be matched and mixed with the raw materials and then enter an extruder by free falling bodies, the waste recovery system is divided into a first waste recovery system, a second waste recovery system and a third waste recovery system according to the characteristics of waste generation of waste, the first waste recovery system reports the waste to online waste, the crushed materials are conveyed into a wrong selecting station by negative pressure, the waste recovery station, the waste is conveyed into a second waste recovery and concentrated crushing and conveying platform, the waste concentrates on the wrong selecting station, the automatic sorting and conveying platform, the wrong sorting station, the automatic sorting and conveying platform conveys the crushed materials to the scrap collecting, the crushed materials to the scrap collecting and conveying platform, the scrap collecting platform, the scrap is conveyed to the scrap collecting and conveying platform, packing material carries to automatic switch valve through the negative pressure in the transit storehouse, automatic switch valve carries to feeding system's weighing and metering machine in through the negative pressure, the alignment of the scrap article that can not be used for production is smashed to third waste material recovery system, and carry the crushing material to mistake proofing selecting station through the negative pressure, crushing material carries to the storage silo through the negative pressure in the mistake proofing selecting station, crushing material carries to mistake proofing selecting station through the negative pressure in the storage silo, crushing material carries to the granulation line granulation through the negative pressure in the mistake proofing selecting station, and carry the packing to the packing frame packing through the positive pressure with granule material.

As shown in fig. 2, the feeding system feeds the food packaging sheet material to the thermoforming plant as follows: the raw material of the feeding system is loaded in the form of ton bales, first, the produced ton bales are transported by trucks into the workshop, when the truck stops at the designated position in the workshop, the fixed suspension arm on the traveling crane unloading vehicle is operated and extended manually, the ton bag is lifted by the fixed suspension arm and then enters the discharge port to discharge the ton bag, after the discharge is finished, the raw materials are conveyed to six one hundred cubic square meters of storage bins by a positive pressure Roots blower in a positive pressure blowing mode, and the storage bins are connected by a pulsation dust collector to collect the dust in the storage bins in a centralized way, because the dust in the raw material in the storage bin can be blown and floated in the air in a positive pressure blowing mode, the pulse dust collector has the opportunity of sucking the dust, thereby the dust can be sucked into the storage bin to effectively solve the problem that the feeding system can generate dust, the raw materials in the storage bin are conveyed into the pipeline of the automatic switching valve through the negative pressure in a negative pressure suction mode through the negative pressure Roots blower, at the moment, the problem that the traditional food packaging sheet thermoforming workshop is blocked when feeding is carried out through a feeding system is effectively solved by feeding after positive and negative material storage through positive pressure Roots blower and negative pressure naked-note graded positive pressure conveying and negative pressure conveying, an automatic switching valve conveys raw materials to a weighing and metering machine through the negative pressure Roots blower, when the raw materials are conveyed into a weighing and metering machine, the color master batch or the plastic raw materials which need to be proportioned in production are put into a storage box with five hundred liters in a manual feeding way, the raw materials in the storage box are conveyed to a weighing machine by a negative pressure Roots blower through negative pressure to be proportioned, and mixing the proportioned mixed materials through a mixer, and feeding the mixed materials into an extruder for a machine in a free-fall mode after the mixed materials are mixed by the mixer.

As shown in fig. 3 to 6, the waste recycling system recycles waste from the thermoforming plant of food packaging sheet as follows: when the waste recovery system receives waste products produced by a food packaging sheet thermoforming workshop after the machine adjustment, a first waste recovery system is adopted to crush the waste products on line through an on-line crusher to obtain crushed materials, the crushed materials obtained by the on-line crushing are conveyed into a first error-proof material selection station by a negative pressure Roots blower in a negative pressure mode, the crushed materials in the station are distributed into twenty fifty cubic square meters of storage bins by the first error-proof material selection station in a negative pressure conveying mode through the negative pressure Roots blower, the crushed materials in the storage bins are conveyed into a pipeline of an automatic switching valve in a negative pressure mode through the negative Roots blower, and the automatic switching valve distributes the crushed materials into a weighing and metering machine through the negative pressure mode to be proportioned and then re-mixes the materials for continuous production and processing, so that the crushed raw materials of the waste products of the leftover materials are lower in quality than purchased raw materials and are used for producing products with slightly lower quality; when the waste recovery system receives unqualified reported waste products produced in a machine adjusting process of a food packaging sheet thermoforming workshop, and the waste products are different in thickness and size according to the waste products, the second waste recovery system is adopted, the rejection rate is very low and cannot be crushed and recovered on line at the moment because of equipment reasons or other reasons, the waste products are used when the waste products need to be stored and the like, crushed materials obtained through centralized crushing are conveyed to a first error-proof material selection station through a negative pressure Roots blower in a centralized negative pressure mode, the crushed materials in the station are distributed to ten ton bag packing frames through the negative pressure Roots blower in the first error-proof material selection station, the first error-proof material selection station is conveyed to a ton bag platform through an AGC (automatic gain control) system in a centralized negative pressure mode, the ton bag platform is hoisted up and moved to the upper part of a transfer bin with six square meters through a hoist, the ton bag is placed into a special bin with six square meters in a free falling mode to be stored, and when the waste products need to be used, the ton bag is conveyed to a pipeline of an automatic changeover valve in a negative pressure pipeline of the automatic changeover valve, and the automatic changeover valve is used for weighing, and the crushed materials are weighed and are continuously proportioned and processed in a weighing machine again; when the waste recovery system is received in a food packaging sheet thermal forming workshop and waste products which cannot be produced after production can be reused, a third waste recovery system is adopted, the waste products are crushed by an online crusher or a centralized crusher and are conveyed into a first mistake-proofing material selecting station by a negative-pressure Roots blower in a negative pressure mode, the crushed materials in the station are distributed into twenty fifty cubic square meters of storage bins by the first mistake-proofing material selecting station in a negative-pressure conveying mode by the negative-pressure Roots blower, the crushed materials in the storage bins are conveyed into the third mistake-proofing material selecting station by the negative-pressure Roots blower in a negative pressure mode, the crushed materials in the third mistake-proofing material selecting station are conveyed into a granulator of a granulation production line in a negative pressure mode by the negative-pressure Roots blower, the crushed materials are prepared into granular finished products by the granulator, and the finished products after granulation of the granulator are conveyed to a ton packaging frame by the positive-pressure Roots blower to be packaged and sold to a factory at the lower end.

The storage bin is provided with a weighing sensor for identifying the amount of materials in the single storage bin, the radar is arranged above the single storage bin for measuring the amount of the materials in the single storage bin, the storage bin is provided with two scale sensors, the first sensor is used for identifying whether the materials are fully stacked in the storage bin, the second sensor is used for identifying the service condition of the materials, the automatic switching valve is intelligently controlled by the system to distribute and take the materials in each storage bin, and meanwhile, the command is fed back to the storage bin of a manager to supplement the materials without the materials.

While the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof or for parts thereof without departing from the scope of the invention.

Claims (10)

1. Food packaging sheet thermoforming workshop intelligence feeding system, including feeding system and waste recovery system, its characterized in that: the raw material ton bag of the feeding system is transported to a workshop by a vehicle and then manually unloaded, the ton bag is unloaded by a crane unloading vehicle after manual unloading, the unloaded raw material is conveyed to a storage bin through positive pressure, the raw material in the storage bin is conveyed to an automatic switching valve through negative pressure, dust during conveying of the raw material is treated by a dust removing device, the raw material in the automatic switching valve is conveyed to a weighing and metering machine through negative pressure, color master batch is thrown into the storage bin through manual feeding at the moment, the color master batch in the storage bin is conveyed to the weighing and metering machine through negative pressure, is matched and mixed with the raw material and then enters an extruder through free falling, the waste recovery system is divided into a first waste recovery system, a second waste recovery system and a third waste recovery system according to the characteristics generated by waste, the first waste recovery system carries out on-line waste crushing on the raw material ton bag according to leftover material reporting, the crushed materials are conveyed to a mistake-proofing material selecting station through negative pressure, the waste materials in the mistake-proofing material selecting station are conveyed to a storage bin through negative pressure, the waste materials in the storage bin are conveyed to the mistake-proofing material selecting station through negative pressure, the waste materials in the mistake-proofing material selecting station are conveyed to an automatic switching valve through negative pressure, the waste materials in the automatic switching valve are conveyed to a weighing and metering machine in a feeding system through negative pressure, a second waste material recovery system conducts centralized crushing on the waste materials according to the waste products which can be continuously produced, the crushed materials are also conveyed to the mistake-proofing material selecting station through centralized negative pressure, the crushed materials in the mistake-proofing material selecting station are conveyed to a packing price through the centralized negative pressure for packing, the packing materials are conveyed to a platform through an AGV, the platform puts the packing materials into a transfer bin through free falling bodies through a crane, and the packing materials in the transfer bin are conveyed to the automatic switching valve through negative pressure, automatic diverter valve passes through the negative pressure and carries to feed system's weighing and metering built-in, the alignment of the scrap article that third wastes material recovery system can not be used for production is smashed to carry the material of smashing to mistake proofing selecting station through the negative pressure, the material of smashing is carried to the storage silo through the negative pressure in the mistake proofing selecting station, the material of smashing is carried to mistake proofing selecting station through the negative pressure in the storage silo in, the material of smashing is carried to the granulation line granulation through the negative pressure in the mistake proofing selecting station, and carry the granule material to packing frame packing through the positive pressure.

2. The food packaging sheet thermoforming plant intelligent feeding system of claim 1, wherein: the raw materials of the feeding system are loaded in a ton bag mode and transported into a workshop through a truck, the truck is controlled by a worker to stretch and retract a fixed suspension arm on a crane unloader after stopping at a specified position in the workshop, the ton bag is suspended through the fixed suspension arm and then enters a discharge port to unload the ton bag, the raw materials are conveyed into six one hundred cubic square meters of storage bins through positive pressure in a positive pressure blowing mode by a positive pressure Roots blower after unloading, dust in the storage bins is collected in a concentrated mode by connecting a pulse dust collector and the storage bins, the raw materials in the storage bins are conveyed into a pipeline of the automatic switching valve through negative pressure in a negative pressure suction mode by a negative pressure Roots blower, and the automatic switching valve conveys the raw materials into a weighing machine through the negative pressure Roots blower.

3. The food packaging sheet thermoforming plant intelligent feeding system of claim 2, wherein: when the raw materials are conveyed into a weighing and metering machine, color master batches or plastic raw materials needing to be matched during production are put into a material storage box of five hundred liters in a manual feeding mode, the raw materials in the material storage box are conveyed into the weighing and metering machine by a negative pressure Roots blower through negative pressure for matching, the matched mixed materials are mixed by a mixer, and the mixed materials are conveyed into an extruder for the machine in a free-falling mode after the mixing of the mixer is completed.

4. The food packaging sheet thermoforming plant intelligent feeding system of claim 1, wherein: when leftover materials produced by the food packaging sheet thermal forming workshop after machine adjustment and received by the waste recovery system are fixed waste reporting products, the food packaging sheet thermal forming workshop adopts the first waste recovery system and crushes the leftover materials on line through the online crusher to obtain crushed materials.

5. The food packaging sheet thermoforming plant intelligent feeding system of claim 4, wherein: the online crushing method comprises the steps that crushed materials obtained through online crushing are conveyed to a first error-proof material selecting station through a negative pressure Roots blower in a negative pressure mode, the crushed materials in the station are distributed to twenty fifty cubic square meters of storage bins through the first error-proof material selecting station through the negative pressure Roots blower in a negative pressure conveying mode, the crushed materials in the storage bins are conveyed to a pipeline of an automatic switching valve through the negative pressure Roots blower in a negative pressure mode, and the automatic switching valve distributes the crushed materials into a weighing and metering machine through the negative pressure Roots blower to be matched and then remixes the materials to continue production.

6. The food packaging sheet thermoforming plant intelligent feeding system of claim 1, wherein: the waste recovery system receives unqualified waste reports that food packaging sheet thermoforming workshop produced when transferring the machine to according to the thickness of scrapped article, when not of uniform size, adopt second waste recovery system, concentrate the scrapped article after retrieving and smash and obtain the crushed aggregates through centralized rubbing crusher.

7. The food packaging sheet thermoforming plant intelligent feeding system of claim 6, wherein: the concentrated crushing material is conveyed to a first error-proof material selecting station by a negative pressure Roots blower in a concentrated negative pressure mode, the crushed material in the station is distributed to ten ton bag packing frames in the concentrated negative pressure conveying mode in the first error-proof material selecting station, the crushed material is conveyed to a ton bag platform by an AGC control system in an AGV mode, the ton bag platform lifts the ton bag on the platform by a traveling hoist and moves the ton bag to the position above a six square meter transfer bin, the ton bag is placed into the six square meter transfer bin in a free falling mode for storage, when the automatic switching valve is needed, the crushed material is conveyed to a pipeline of the automatic switching valve in a negative pressure mode by the negative Roots blower, and the automatic switching valve distributes the crushed material into a weighing meter in a negative pressure mode by the negative Roots blower for proportioning and then re-mixes the material and continues production.

8. The food packaging sheet thermoforming plant intelligent feeding system of claim 1, wherein: when the waste recovery system receives waste reports which cannot be used for production again after being produced in a food packaging sheet thermal forming workshop, the waste recovery system adopts a third waste recovery system, the waste reports are crushed by an online crusher or a centralized crusher and are conveyed to a first error-proof material selecting station by a negative-pressure Roots blower at a negative pressure, the crushed materials in the station are distributed to twenty fifty cubic square meters of storage bins by the negative-pressure Roots blower at the first error-proof material selecting station in a negative-pressure conveying mode, the crushed materials in the storage bins are conveyed to the third error-proof material selecting station by the negative-pressure Roots blower at a negative pressure, the crushed materials in the third error-proof material selecting station are conveyed to a granulator of a granulation production line at a negative pressure by the negative-pressure Roots blower at a negative pressure, the crushed materials are prepared into granular finished products by the granulator, and the finished products after granulation are conveyed to a ton packaging frame by the positive-pressure Roots blower for packaging treatment.

9. The food packaging sheet thermoforming plant intelligent feeding system of claim 1, wherein: the storage bin is provided with a weighing sensor for measuring the amount of materials in a single storage bin, the radar is arranged above the single storage bin for measuring the amount of the materials in the single storage bin, the radar is used for knowing the height of the materials stacked, the storage bin is further provided with two level meters, the first level meter is used for identifying whether the materials are fully stacked in the storage bin, and the second level meter is used for identifying the lowest storage amount value of the materials.

10. The food packaging sheet thermoforming plant intelligent feeding system of claim 1, wherein: the automatic switching valve is intelligently controlled by the system to distribute and fetch the materials of each storage bin, and command signals are fed back to the central control system at any time to prompt which storage bin has no materials and needs to be supplemented.

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