CN215094955U - Plastic edging and flexible packaging crushing system - Google Patents

Abstract

The application provides a system is smashed to plastics sapwood and soft-packing relates to environmental protection pharmacy technical field. System is smashed to plastics sapwood and soft-packing includes: the device comprises a conveying module, a crushing module and a discharging module. The conveying module comprises a total conveying track and a plurality of branch conveying tracks, the branch conveying tracks are communicated with the total conveying track, the total conveying track is used for conveying materials to be crushed to the crushing module, the crushing module is used for crushing the materials to be crushed into second-level materials with qualified material diameters, and the discharging module is connected with the crushing module and can move the second-level materials out of the crushing module and deliver the second-level materials to an appointed position. The utility model provides a system is smashed to plastics sapwood and soft-packing is through the cooperation of carrying module, broken module, ejection of compact module, can conveniently need carry out shredding's enterprise or individual to relevant material to plastics sapwood and soft-packing and handle, does benefit to resource recovery, is of value to the environmental protection, and can avoid sensitive information to be acquireed by irrelevant object. The whole meets the existing relevant requirements.

Description

Plastic edging and flexible packaging crushing system

Technical Field

The application relates to the technical field of environmental protection pharmacy, in particular to a plastic sapwood and flexible package crushing system.

Background

In the pharmaceutical industry, with the development of technology, new technology of new equipment is used more and more. With the increasing requirements of China on the quality safety of medicines, environmental protection and reasonable recycling of resources, pharmaceutical enterprises are very urgent to the recycling of available resources and the processing of sensitive information.

With the development of pharmaceutical enterprises, the scale is gradually formed, and the demand for processing plastic saplings and flexible packages is more urgent.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a system is smashed to plastics sapwood and soft-packing, and it can satisfy the demand that pharmaceutical enterprise handled plastics sapwood and soft-packing.

The embodiment of the application is realized as follows:

the embodiment of the application provides a system is smashed to plastics sapwood and soft-packing, includes: the device comprises a conveying module, a crushing module and a discharging module;

the conveying module comprises a main conveying track and a plurality of sub-conveying tracks, the sub-conveying tracks are communicated with the main conveying track, the main conveying track is used for conveying materials to be crushed to the crushing module, the crushing module is used for crushing the materials to be crushed into secondary materials with qualified material diameters, and the discharging module is connected with the crushing module and can move the secondary materials out of the crushing module and deliver the secondary materials to a designated position.

A plurality of branch delivery track can realize that a plurality of positions throw the material to the kind of throwing the material can be the same also can be different, finally assembles total delivery track, and carries and smashes for crushing module, finally discharges through ejection of compact module, satisfies the enterprise to the demand that plastics sapwood and flexible package were handled.

In addition, the plastic sapwood and flexible package smashing system provided by the embodiment of the application can also have the following additional technical characteristics:

in an alternative embodiment of the present application, the plastic sapwood and flexible package shredding system includes a control system for controlling the operation and stop of the conveyor module, the crushing module and the discharge module.

Through the configuration of the control system, the work and the stop of the modules can be automated, the labor intensity of personnel is reduced, and the coordination among the modules can be more accurate.

In an optional embodiment of the application, the control system includes a first sensor, a part or all of the sub-conveying tracks are provided with the first sensor, and the control system can control the sub-conveying tracks to convey or stop conveying according to a detection result of the first sensor.

Through the sensing of first sensor, can reduce unnecessary energy resource consumption when having no material.

In an optional embodiment of the present application, the crushing module comprises a crushing bin and a crushing hopper, the crushing hopper is connected to the top of the crushing bin, the total conveying track is connected to the crushing hopper, and the discharging module is connected to the crushing bin.

Crushing hopper can be collected treating broken material to deliver and carry out crushing work for crushing storehouse, ejection of compact module then can absorb the second grade material after the breakage.

In an optional embodiment of the present application, the control system comprises a second sensor, the second sensor is arranged at a first position and a second position of the crushing hopper, the second sensor at the first position is used for detecting whether the material to be crushed reaches a high position, and the second sensor at the second position is used for detecting whether the material to be crushed reaches a low position.

Through setting up the second sensor, can be better according to smashing how much to feed or stop the feed in the material of hopper.

In an alternative embodiment of the present application, the control system includes a third sensor disposed above the first position, the control system alarming when the third sensor is triggered.

The third sensor can avoid piling up too high because the second sensor does not work and leading to treating broken material as the guarantee, in time reminds operating personnel to handle.

In an optional embodiment of the present application, a solid-liquid separation device is disposed between the pulverizing hopper and the pulverizing bin, and the material in the pulverizing hopper enters the pulverizing bin after being subjected to solid-liquid separation by the solid-liquid separation device.

Through setting up solid-liquid separation equipment, can realize carrying out solid-liquid separation with the material that has liquid, then deliver solid material to crushing storehouse and carry out the breakage again, realized the crushing of pluralism.

In the optional embodiment of this application, ejection of compact module includes separation fill and negative-pressure air fan, the separation fill with crushing module connects, negative-pressure air fan connect in the separation is fought, negative-pressure air fan during operation, second grade material in the crushing module is by the negative pressure suction extremely in the separation fill.

In the optional embodiment of this application, ejection of compact module still includes the dust remover, the separation fill with the dust remover passes through exhaust duct intercommunication, negative-pressure air fan is to the dust remover airs exhaust.

The dust remover can get rid of the impurity dust in the separation fill, then discharges clean air, avoids polluting the operation environment.

In an optional embodiment of the present application, the plastic sapwood and flexible package grinding system further comprises a collecting container disposed at the designated position, the separating hopper is located above the collecting container, and the separating hopper can discharge secondary materials to the collecting container.

The collecting container is directly arranged below the separating hopper and can directly collect the second-level materials.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a schematic view of a plastic edging and flexible packaging comminuting system according to an embodiment of the present application.

Icon: 100-a crushing bin; 110-a crushing hopper; 200-a delivery module; 210-total delivery track; 220-minute conveying track; 300-negative pressure fan; 310-a separation bucket; 320-a discharge hole; 330-a collection container; 340-a dust remover; 400-a suction pipeline; 410-an exhaust duct; 500-a control system; 510-a second sensor; 511-high level sensor; 512-low level sensor; 520-first sensor.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present application, it should be noted that the terms "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the product conventionally places when used, and are only used for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the present application, it is also to be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Examples

Referring to fig. 1, an embodiment of the present application provides a plastic sapwood and flexible package shredding system, including: a conveying module 200, a crushing module and a discharging module;

the conveying module 200 comprises a main conveying track 210 and a plurality of sub-conveying tracks 220, the sub-conveying tracks 220 are communicated with the main conveying track 210, the main conveying track 210 is used for conveying materials to be crushed to the crushing module, the crushing module is used for crushing the materials to be crushed into secondary materials with qualified material diameters, and the discharging module is connected with the crushing module and can move out the secondary materials from the crushing module and deliver the secondary materials to a designated position.

It should be noted that the names of the above-mentioned secondary materials are mainly different from the materials before crushing, and do not mean to grade the materials, or the materials after crushing have a reduced grade. Therefore, the material before crushing is only required to be understood as being equivalent to the primary material, and the material after crushing is correspondingly changed into the secondary material, and the two materials are different before and after crushing and are not additionally limited in the material.

In addition, the qualified material diameter refers to the size which can meet the crushing index generally required to be crushed, and is not a fixed value, and different materials or different crushing requirements can be provided. Besides, the size of the material which can be sucked by the negative pressure fan 300 in the discharging module can be also the size, so that the material is prevented from being too large to be sucked. In short, the specific size of the material diameter can be determined according to the requirements and equipment conditions, and does not limit how large the material must be crushed or what shape the material must be crushed.

Simply speaking, a plurality of branch delivery track 220 of the system is smashed to plastics sapwood and soft-packing of this application can realize that a plurality of positions throw the material to the kind of throwing the material can be the same also can be different, finally assembles total delivery track 210, and carry and smash for crushing module, finally discharge through ejection of compact module, satisfy the enterprise to the demand that plastics sapwood and soft-packing were handled.

Specifically, the plastic sapwood and flexible package crushing system of the application comprises a control system 500, and the control system 500 is used for controlling the operation and stop of the conveying module 200, the crushing module and the discharging module. By configuring the control system 500, the operation and the stop of the plurality of modules can be automated, the labor intensity of personnel can be reduced, and the cooperation among the plurality of modules can be more accurate.

In detail, the control system 500 includes a first sensor 520, a second sensor 510, and a third sensor to enable monitoring of the transport module 200, the crushing module. Wherein the third sensor is not shown.

Wherein, a first sensor 520 is disposed on part or all of the sub-delivery tracks 220, and the control system 500 can control the sub-delivery tracks 220 to deliver or stop delivering according to the detection result of the first sensor 520. In the illustration of the present embodiment, the first sensor 520 is not shown in the overall conveying track 210, and all the sub-conveying tracks 220 are provided with the first sensor 520. It is understood that the first sensor 520 may also be disposed on the overall conveying track 210, and the control system 500 controls the start/stop and the acceleration/deceleration of the overall conveying track 210. By sensing the first sensor 520, unnecessary energy consumption can be reduced when there is no material. When the material is available, the conveying can be started, and when the material of the crushing hopper 110 is low, the conveying can be accelerated, so that the overall efficiency of the crushing operation is improved.

In this embodiment, the crushing module includes a crushing bin 100 and a crushing hopper 110, the crushing hopper 110 is connected to the top of the crushing bin 100, the main conveying rail 210 is connected to the crushing hopper 110, and the discharging module is connected to the crushing bin 100. Crushing hopper 110 can collect the material to be crushed to deliver and carry out crushing work for crushing storehouse 100, ejection of compact module then can absorb the second grade material after the breakage.

The second sensor 510 is disposed at a first position and a second position of the crushing hopper 110, the second sensor (high level sensor 511) at the first position is used for detecting whether the material to be crushed reaches a high level, and the second sensor (low level sensor 512) at the second position is used for detecting whether the material to be crushed reaches a low level. By providing the second sensor 510, it is possible to better feed or stop the feeding depending on how much material is in the crushing hopper 110. When the material to be crushed is low, the crushing bin 100 stops working to reduce energy consumption and equipment wear. When the material to be crushed is high, the conveying module 200 is controlled to stop feeding. In addition, the conveying module 200 can also be provided with a material buffer area on the total conveying track 210 and/or the sub-conveying track 220, so that when feeding is not needed in the crushing hopper 110, the fed materials are temporarily stored, the materials do not need to be moved away from the conveying module 200, interference of personnel is reduced, and labor cost is saved.

Further, a third sensor is disposed above the first position, and when the third sensor is triggered, the control system 500 alarms. The third sensor plays the effect of windrow alarm as the guarantee, can avoid leading to treating that broken material piles up too high because second sensor 510 does not play a role, in time reminds operating personnel to handle.

Optionally, a solid-liquid separation device is disposed between the pulverizing hopper 110 and the pulverizing bin 100 in this embodiment, and the material in the pulverizing hopper 110 is subjected to solid-liquid separation by the solid-liquid separation device and then enters the pulverizing bin 100. Through setting up solid-liquid separation equipment, can realize carrying out solid-liquid separation with the material that has liquid, then deliver solid material to crushing storehouse 100 and carry out the breakage, realized the crushing of pluralism. Therefore, the pure plastic edging and the soft package can be simply crushed, and the materials can also be put into the plastic edging and soft package crushing system to be crushed when the materials have liquid.

Regarding the discharging module, specifically, the discharging module in this embodiment includes a separating hopper 310 and a negative pressure fan 300, the separating hopper 310 is connected to the crushing bin 100 of the crushing module through a material suction pipeline, the negative pressure fan 300 is connected to the separating hopper 310, and when the negative pressure fan 300 works, the secondary material in the crushing module is sucked into the separating hopper 310 by negative pressure. Further, the discharging module further comprises a dust remover 340, the separating hopper 310 is communicated with the dust remover 340 through an exhaust duct 410, and the negative pressure fan 300 exhausts air to the dust remover 340. The dust collector 340 can capture and remove foreign dust and fine materials in the separation hopper 310, and then discharge clean air to prevent pollution of the working environment, and materials having a material diameter corresponding to a target particle diameter can fall into the collection container 330 mentioned below by gravity.

It can be understood that the controller can control the operation of the negative pressure fan 300 according to whether the pulverizing bin 100 is in operation, for example, the operation of the negative pressure fan 300 can be stopped within a certain time after the pulverizing operation is stopped, so that unnecessary operation time is reduced, and energy is saved.

The plastic sapwood and flexible package shredding system further comprises a collection container 330, and the collection container 330 is disposed at a designated position. In this embodiment, the separating funnel 310 is located above the collecting container 330, and the separating funnel 310 can discharge the secondary material to the collecting container 330. The collection container 330 is directly disposed under the separation hopper 310, and can directly collect the second-level material, reduce the circulation process, and reduce the occupation of the field.

The working principle of the embodiment is as follows:

the sub-conveying tracks 220 can be used for throwing materials, the materials placed on each sub-conveying track 220 can be the same or different, when the first sensor 520 of the sub-conveying track 220 detects that materials are put in, the control system 500 controls the sub-conveying track 220 to convey, and when the main conveying track 210 detects that materials are put in, the conveying work is started.

When the height of the material in the pulverizing hopper 110 exceeds the second position, the control system 500 controls the operation of the pulverizing hopper 100 and cuts or grinds the material to form the material of the target grain size, i.e., the above-mentioned secondary material of acceptable grain size.

When the crushing bin 100 starts to work, the negative pressure fan 300 also starts to work, negative pressure is formed in the material suction pipeline 400, qualified materials in the crushing bin 100 are sucked into the separation hopper 310, impurities, dust and micro materials with small particle size can be discharged to the dust remover 340 along the exhaust pipeline 410, and materials with target particle size fall into the lower part of the separation hopper 310 under the action of self gravity and can be discharged to the collection container 330 through the discharge hole 320.

When the material in the crushing hopper 110 exceeds the first position, the control system 500 may control the conveying module 200 to suspend conveying so as not to stack the material too high.

When the material in the crushing hopper 110 exceeds the first position but is not detected by the second sensor 510, the accumulated material is gradually accumulated and triggers the third sensor, and the control system 500 receives a feedback signal from the third sensor and can give an alarm while controlling the operation of the conveying module 200 to stop. For example, a whistle or a light alarm can be performed on a work site, a whistle or a light alarm can be performed in a control room, an alarm prompt pops up on a display of the control system 500, or an alarm is performed on a mobile phone of an operator, and the like.

To sum up, the cooperation of plastics sapwood and flexible package system of smashing of this application through transport module 200, broken module, ejection of compact module can conveniently need carry out shredding's enterprise or individual to relevant material to plastics sapwood and flexible package and handle, does benefit to the resource recovery, is of value to the environmental protection, and can avoid sensitive information to acquire by irrelevant object. The whole meets the existing relevant requirements.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a system is smashed to plastics sapwood and soft-packing which characterized in that includes: the device comprises a conveying module, a crushing module and a discharging module;

the conveying module comprises a main conveying track and a plurality of sub-conveying tracks, the sub-conveying tracks are communicated with the main conveying track, the main conveying track is used for conveying materials to be crushed to the crushing module, the crushing module is used for crushing the materials to be crushed into secondary materials with qualified material diameters, and the discharging module is connected with the crushing module and can move the secondary materials out of the crushing module and deliver the secondary materials to a designated position.

2. The plastic edging and flexible packaging comminuting system of claim 1, comprising a control system for controlling the operation and the stop of the conveyor module, the comminuting module, and the discharge module.

3. The plastic edging and flexible packaging smashing system according to claim 2, wherein the control system comprises a first sensor, a part or all of the sub-conveying tracks are provided with the first sensor, and the control system can control the sub-conveying tracks to convey or stop conveying according to a detection result of the first sensor.

4. The plastic edging and flexible packaging comminuting system of claim 2, wherein the comminuting module comprises a comminuting bin and a comminuting hopper, the comminuting hopper is connected to a top of the comminuting bin, the main conveyor track is connected to the comminuting hopper, and the discharge module is connected to the comminuting bin.

5. The plastic edging and flexible packaging comminuting system of claim 4, wherein the control system comprises a second sensor disposed at a first position and a second position of the comminuting hopper, the second sensor at the first position being configured to detect whether the material to be comminuted has reached a high position and the second sensor at the second position being configured to detect whether the material to be comminuted has reached a low position.

6. A plastic edging and flexible packaging comminuting system according to claim 5 wherein the control system comprises a third sensor disposed above the first position, the control system alerting when the third sensor is triggered.

7. The plastic sapwood and flexible package grinding system of claim 4, wherein a solid-liquid separation device is disposed between the grinding hopper and the grinding bin, and the material in the grinding hopper enters the grinding bin after solid-liquid separation by the solid-liquid separation device.

8. The plastic sapwood and flexible package shredding system according to claim 1, wherein the discharge module comprises a separation hopper and a negative pressure fan, the separation hopper is connected with the crushing module, the negative pressure fan is connected to the separation hopper, and when the negative pressure fan operates, secondary materials in the crushing module are sucked into the separation hopper by negative pressure.

9. The plastic sapwood and flexible package shredding system according to claim 8, wherein the discharge module further comprises a dust collector, the separation hopper is communicated with the dust collector through an exhaust duct, and the negative pressure fan exhausts air to the dust collector.

10. The plastic edging and flexible packaging comminuting system of claim 8, further comprising a collection container disposed at the designated location, wherein the separation hopper is positioned above the collection container, wherein the separation hopper is capable of discharging secondary material toward the collection container.

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