CN219926629U - Crushed aggregates recovery unit for infusion bottle bag - Google Patents

Abstract

The utility model discloses a crushed aggregates recovery device for infusion bottle bags, which comprises a winnowing separator (1), wherein a heavy discharging pipe (2) is arranged at the bottom of the winnowing separator (1), and a light discharging pipe (3) is arranged at one side of the winnowing separator (1), and is characterized in that: the light discharging pipe (3) is characterized in that a hopper (4) is arranged at the outer side of the light discharging pipe (3), the bottom of the hopper (4) is connected with a crushed material pipe (5), one end of the crushed material pipe (5) is connected with a feeding fan (6), and the other end of the crushed material pipe (5) extends upwards to form a discharging hole (7); the end part of the light discharging pipe (3) extends to the outer side of the winnowing separator (1) and forms a vertical downward blanking port (8), a nylon net belt (9) is connected to the outer part of the blanking port (8), and the hopper (4) and the light discharging pipe (3) are mutually communicated through the nylon net belt (9). The utility model can realize the transportation of the waste after the material separation and reduce the possibility of falling out of the waste.

Description

Crushed aggregates recovery unit for infusion bottle bag

Technical Field

The utility model relates to a processing device for infusion bottle bags, in particular to a crushed aggregates recycling device for infusion bottle bags.

Background

The medical infusion bottle and the infusion bag can be crushed and recycled through the recycling device after being used, plastic scraps generated after the infusion bottle is crushed can be directly reused, and plastic sheets generated after the infusion bag is crushed need to be reprocessed into plastic particles through the granulator for use. Because this recovery unit can be applicable to the processing to infusion bottle and infusion bag simultaneously for recovery unit still needs to install the selection by winnowing separating centrifuge additional in the afterbody, and then utilizes the selection by winnowing separating centrifuge to separate infusion bottle and infusion bag waste material that produces after processing, makes things convenient for the producer to the follow-up treatment of two kinds of waste materials.

The existing winnowing separator is similar to the patent 201910988643.4, the separation mode of the existing winnowing separator enables the waste to move downwards along the pipeline after being sent into, and meanwhile, the waste in the pipeline is blown upwards by the fan, so that plastic scraps with relatively large weight can fall into the heavy discharging pipe below regardless of the blowing force of the fan, and plastic sheets with relatively small weight can enter the light discharging pipe above under the influence of the blowing force, and the mutual separation of the two waste is realized. The plastic sheet can be packed and collected by operators after being discharged by the light discharging pipe, and is sent to a subsequent granulating station for treatment after the collection is completed. However, the winnowing separator has the defects that on one hand, the plastic sheets need to be manually transported to a granulating station after being collected, so that the conveying cost of waste materials is increased; on the other hand, because the weight of plastic sheet is lighter and takes the form of thin slice, make its inner wall at light discharging pipe of very easy adhesion in the ejection of compact in-process to drop to the outside of transporting the bag in the change of the bag in-process of operating personnel thereupon, thereby reduced the cleanliness factor of surrounding environment and increased the clearance degree of difficulty of operating personnel.

Therefore, the existing winnowing separator for infusion bottle bags has the problems of high transfer cost and easy falling of waste materials.

Disclosure of Invention

The utility model aims to provide a crushed aggregates recovery device for infusion bottle bags. The device can realize the transportation of the waste after the material separation and reduce the possibility of falling out of the waste.

The technical scheme of the utility model is as follows: the crushed aggregates recovery device for the infusion bottle bag comprises a winnowing separator, wherein a heavy discharging pipe is arranged at the bottom of the winnowing separator, a light discharging pipe is arranged at one side of the winnowing separator, a hopper is arranged at the outer side of the light discharging pipe, the bottom of the hopper is connected with a crushed aggregates pipe, one end of the crushed aggregates pipe is connected with a feeding fan, and the other end of the crushed aggregates pipe extends upwards to form a discharging hole; the end part of the light discharging pipe extends to the outer side of the winnowing separator and forms a vertical downward blanking port, the outside of the blanking port is connected with a nylon net belt, and the hopper and the light discharging pipe are mutually communicated through the nylon net belt.

In the crushed aggregates recovery device for the infusion bottle bag, the lower end of the nylon net belt extends into the hopper and is provided with the counterweight ring.

In the crushed aggregates recovery device for the infusion bottle bags, the periphery of the weight ring is mutually attached to the inner wall of the hopper.

In the crushed aggregates recovery device for the infusion bottle bag, the light discharging pipe is outwards bent at the blanking port to form the folded edge, and the upper end of the nylon net belt is bound outside the folded edge through the sleeve rope.

Compared with the prior art, the utility model has the following characteristics:

(1) According to the utility model, through the structural cooperation of the crushing pipe and the feeding fan, the waste materials can immediately enter the crushing pipe after being discharged from the light discharging pipe and are vertically and upwards conveyed to a subsequent station under the blowing action of the feeding fan, so that the automatic transfer of the waste materials is realized;

(2) Through the nylon mesh belt arranged between the blanking port and the crushed material pipe, the backward flow of the air flow in the crushed material pipe can be effectively avoided on the basis of realizing the conveying function, namely the air flow can be directly discharged from the holes around after entering the nylon mesh belt, so that larger resistance can not be formed on the waste when falling, and the blanking stability of the waste is improved; when the waste is reversely blown by the airflow at the position of the crushing pipe, the nylon mesh belt can also shield the waste, so that the waste is prevented from being reversely blown out of the hopper, and the cleanliness of the surrounding environment is improved;

(3) Through the arrangement of the counterweight ring, on one hand, the lower end of the nylon net belt can be limited, the nylon net belt is prevented from falling off the discharge hopper under the action of air flow, and the conveying stability of the nylon net belt is improved; on the other hand, the nylon net can still keep a falling state in the state, so that the folds of the nylon net belt in a natural state are reduced, the accumulation of waste materials at the folds is avoided, and when a worker shakes the nylon net belt, the nylon net belt can be quickly reset after shaking deformation, and further the separation effect and the sealing effect of the waste materials in shaking are improved;

therefore, the utility model can realize the transportation of the waste after the material separation and reduce the possibility of falling out of the waste.

Drawings

Fig. 1 is a schematic structural view of embodiment 1;

fig. 2 is a schematic structural diagram of embodiment 2.

The marks in the drawings are: the device comprises a 1-winnowing separator, a 2-heavy discharging pipe, a 3-light discharging pipe, a 4-hopper, a 5-crushing pipe, a 6-feeding fan, a 7-discharging port, an 8-blanking port, a 9-nylon net belt and a 10-counterweight ring.

Detailed Description

The utility model is further illustrated by the following figures and examples, which are not intended to be limiting.

Example 1. The crushed aggregates recovery device for the infusion bottle bags is shown in the figure 1, and comprises a winnowing separator 1, wherein a heavy discharging pipe 2 is arranged at the bottom of the winnowing separator 1, a light discharging pipe 3 is arranged at one side of the winnowing separator 1, a hopper 4 is arranged at the outer side of the light discharging pipe 3, a crushed aggregates pipe 5 is connected to the bottom of the hopper 4, one end of the crushed aggregates pipe 5 is connected with a feeding fan 6, the other end of the crushed aggregates pipe 5 extends upwards to form a discharging hole 7, and the discharging hole 7 can be arranged at the upper layer of the recovery device and is positioned at one side of a granulator, so that waste materials can be directly conveyed to the granulator for subsequent treatment after being discharged through the discharging hole 7; the tip of light discharging pipe 3 extends to the outside of selection by winnowing separating centrifuge 1 and forms vertical decurrent blanking mouth 8, and the external connection of blanking mouth 8 has nylon guipure 9, communicates each other through nylon guipure 9 between hopper 4 and the light discharging pipe 3, and the mesh of nylon guipure 9 is less than the appearance of waste material.

The lower end of the nylon net belt 9 extends into the hopper 4 and is provided with a counterweight ring 10, so that the nylon net belt 9 keeps a vertical falling state under the action of the counterweight ring.

The periphery of the counterweight ring 10 is mutually attached to the inner wall of the hopper 4, so that waste materials are prevented from falling out from gaps between the hopper 4 and the counterweight ring 10.

The light discharging pipe 3 is outwards bent at the blanking port 8 to form a folded edge, and the upper end of the nylon net belt 9 is bound outside the folded edge through a lashing rope.

The working principle of the utility model is as follows: when the device is used, the light waste material vertically drops downwards from the light discharging pipe 3 after separation and drops into the crushed material pipe 5 below along the nylon mesh belt 9, so that the waste material is conveyed to a subsequent station by utilizing the cooperation of the feeding fan 6 and the crushed material pipe 5, and the manual collection and conveying cost of the waste material is reduced. Through the setting of nylon guipure 9, on the one hand can play the effect that diverges and slowly flow to the air current in the crushed aggregates pipe 5, make the air current can follow mesh department all around and discharge after flowing to nylon guipure 9 to alleviate and cause reverse the blowing to the waste material. On the other hand, when the waste material is subjected to reverse blowing of air current, the waste material can be shielded through the nylon mesh belt 9, so that the falling-out of the waste material is prevented, and the blanking stability of the waste material is improved. After the waste material is adhered to the inner wall of the nylon mesh belt 9 in a large amount, an operator can drop the waste material into the crushed aggregates pipe 5 in a shaking or sweeping manner, so that the discharge stability of the waste material is improved, and the ventilation effect of the nylon mesh belt 9 is ensured.

Example 2. The crushed aggregates recovery device for the infusion bottle bags is shown in fig. 2, and comprises a winnowing separator 1, wherein a heavy discharging pipe 2 is arranged at the bottom of the winnowing separator 1, light discharging pipes 3 are arranged on one side of the winnowing separator 1, the number of the light discharging pipes 3 is multiple and are arranged side by side, a hopper 4 is connected to the outer side of each light discharging pipe 3, the number of the hopper 4 is one and is simultaneously connected with the multiple light discharging pipes 3, a crushed aggregates pipe 5 is connected to the bottom of the hopper 4, one end of the crushed aggregates pipe 5 is connected with a feeding fan 6, the other end of the crushed aggregates pipe 5 extends upwards to form a discharging hole 7, and the discharging hole 7 can be arranged on the upper layer of the recovery device and is positioned on one side of the granulator, so that waste materials can be directly conveyed to the granulator for subsequent treatment after being discharged through the discharging hole 7; the tip of light discharging pipe 3 extends to the outside of selection by winnowing separating centrifuge 1 and forms vertical decurrent blanking mouth 8, and the external connection of blanking mouth 8 has nylon guipure 9, communicates each other through nylon guipure 9 between hopper 4 and the light discharging pipe 3, and the mesh of nylon guipure 9 is less than the appearance of waste material.

The lower end of the nylon net belt 9 extends into the hopper 4 and is provided with a counterweight ring 10, so that the nylon net belt 9 keeps a vertical falling state under the action of the counterweight ring.

The appearance of the counter weight ring 10 is rectangular, the periphery of the counter weight ring 10 is mutually attached to the inner wall of the hopper 4, and the counter weight rings 10 on the adjacent nylon mesh belts 9 can be mutually bound and attached through binding belts, so that waste materials are prevented from falling out from gaps between the hopper 4 and the counter weight rings 10.

The light discharging pipe 3 is outwards bent at the blanking port 8 to form a folded edge, and the upper end of the nylon net belt 9 is bound outside the folded edge through a lashing rope.

The structure of the recovery device is limited, so that the recovery device can be applied to the winnowing separator 1 with a plurality of light discharging pipes 3, and the waste materials in the light discharging pipes 3 can be ensured to stably enter the crushing pipe 5 in discharging.

Claims (4)

1. Infusion bottle bag is with crushed aggregates recovery unit, including selection by winnowing separating centrifuge (1), the bottom of selection by winnowing separating centrifuge (1) is equipped with heavy discharging pipe (2), and one side of selection by winnowing separating centrifuge (1) is equipped with light discharging pipe (3), its characterized in that: the light discharging pipe (3) is characterized in that a hopper (4) is arranged at the outer side of the light discharging pipe (3), the bottom of the hopper (4) is connected with a crushed material pipe (5), one end of the crushed material pipe (5) is connected with a feeding fan (6), and the other end of the crushed material pipe (5) extends upwards to form a discharging hole (7); the end part of the light discharging pipe (3) extends to the outer side of the winnowing separator (1) and forms a vertical downward blanking port (8), a nylon net belt (9) is connected to the outer part of the blanking port (8), and the hopper (4) and the light discharging pipe (3) are mutually communicated through the nylon net belt (9).

2. The crushed aggregates recycling device for infusion bottle bags according to claim 1, wherein: the lower end of the nylon net belt (9) extends into the hopper (4) and is provided with a counterweight ring (10).

3. The crushed aggregates recycling device for infusion bottle bags according to claim 2, wherein: the periphery of the counterweight ring (10) is mutually attached to the inner wall of the hopper (4).

4. The crushed aggregates recycling device for infusion bottle bags according to claim 1, wherein: the light discharging pipe (3) is outwards bent at the blanking port (8) to form a folded edge, and the upper end of the nylon net belt (9) is bound outside the folded edge through a lashing rope.