CN216639268U - Conveying system of mixture - Google Patents

Abstract

The utility model belongs to the technical field of workshop material conveying, and particularly relates to a conveying system for a mixture, which comprises a mixing device, a first horizontal conveying mechanism, a vertical conveying mechanism, a second horizontal conveying mechanism and a furnace end bin, wherein the discharge end of the mixing device is connected with the feed end of the first horizontal conveying mechanism, the discharge end of the first horizontal conveying mechanism is connected with the feed end at the bottom of the vertical conveying mechanism, the discharge end at the top of the vertical conveying mechanism is connected with the feed end of the second horizontal conveying mechanism, and the discharge end of the second horizontal conveying mechanism is connected with the furnace end bin. The utility model provides an automatic conveying mode for the carrier plate glass mixture transportation, so that the carrier plate glass mixture transportation can automatically feed according to liquid level, realize the automatic conveying of the carrier plate glass mixture, realize the automatic mixing and conveying of the carrier plate glass mixture by adopting an intelligent control method and means, and meet the production requirements.

Description

Conveying system of mixture

Technical Field

The utility model relates to a conveying system for a mixture, and belongs to the technical field of workshop material conveying.

Background

With the development of economy, the demand of large-size carrier plate glass in life and production is more and more. From the 4.5 th generation, the 5 th generation to the 6 th generation and then to the 8.5 th generation, the size of the carrier plate glass is larger and larger, so a glass kiln with larger capacity is needed in the production, and the conveying mode and the conveying efficiency of the mixture become the problems to be solved.

In the production process of the carrier plate glass, the quality of the glass liquid directly determines the quality of the carrier plate glass. The temperature and moisture of the batch have a great influence on the quality of the molten glass, which requires that the batch be stored without touching the air.

At present, most of mixed materials of carrier plate glass are stored in a material storage tank by manual transportation to a material storage room, so that the large-area space of a workshop is occupied, and the transportation efficiency is low. The mixture needs manual work to drop into the furnace end feed bin, has wasted manpower and material resources.

SUMMERY OF THE UTILITY MODEL

According to the defects in the prior art, the technical problems to be solved by the utility model are as follows: the conveying system overcomes the defects of the prior art, provides an automatic conveying mode for the conveying of the carrier plate glass mixture, improves the production efficiency and reduces the labor cost.

The conveying system of the mixture comprises a mixing device, a first horizontal conveying mechanism, a vertical conveying mechanism, a second horizontal conveying mechanism and a furnace end bin, wherein the discharge end of the mixing device is connected with the feed end of the first horizontal conveying mechanism, the discharge end of the first horizontal conveying mechanism is connected with the feed end at the bottom of the vertical conveying mechanism, the discharge end at the top of the vertical conveying mechanism is connected with the feed end of the second horizontal conveying mechanism, and the discharge end of the second horizontal conveying mechanism is connected with the furnace end bin.

The mixing device comprises a shell, a longitudinal mixing shaft is arranged in the shell, a plurality of paddle rods are distributed along the circumferential direction of the mixing shaft, paddles are arranged at the end parts of the paddle rods, the mixing shaft is driven by a mixing motor to rotate, and a discharge hole of the mixing device is connected with a first horizontal conveying mechanism.

The first horizontal conveying mechanism is a first scraper conveyor and comprises a first conveyor shell, a first scraper conveyor belt is arranged in the first conveyor shell, a plurality of first scrapers capable of running along with the belt are arranged on the first scraper conveyor belt, the first scraper conveyor belt is driven by a first driving shaft, the first driving shaft is driven by a first conveying motor, and a discharge pipe of the first horizontal conveying mechanism is connected with the bottom of the vertical conveying mechanism.

The vertical conveying mechanism is a bucket elevator and comprises an elevator shell and an elevator rack, an elevator belt is arranged in the elevator shell, a plurality of elevator buckets are arranged on the elevator belt, and a flow pipe at the top of the vertical conveying mechanism is connected with a second horizontal conveying mechanism.

The second horizontal conveying mechanism is a second scraper conveyor and comprises a second conveyor shell, a second scraper conveyor belt is arranged in the second conveyor shell, a plurality of second scrapers capable of running along with the belt are arranged on the second scraper conveyor belt, the second scraper conveyor belt is driven by a second driving shaft, the second driving shaft is driven by a second conveying motor, and the discharge end of the second horizontal conveying mechanism is connected with the bin shell.

The furnace end storage bin comprises a storage bin shell, the storage bin shell is connected with a second horizontal conveying mechanism through a feeding pipe at the top, and an impurity filtering device is arranged at a feeding hole.

Preferably, the impurity filtering device is a magnetic grid plate, and is mainly used for filtering iron impurities and ensuring the quality of the mixture.

The furnace end bin is also provided with a material level meter and a gas filtering device.

Preferably, the gas filtering device is a pulse dust collector which collects impurity particles in the filtered air.

Compared with the prior art, the utility model has the beneficial effects that:

the conveying system of the mixture provides an automatic conveying mode for the carrier plate glass mixture transportation through reasonable structural design, so that the carrier plate glass mixture can be automatically fed according to liquid level, the automatic conveying of the glass mixture is realized, the automatic mixing and conveying of the carrier plate glass mixture are realized by adopting an intelligent control method and means, and the production requirement is met. Compare in present mode greatly reduced the area of storage tank in the workshop, promote production efficiency and automation level, guarantee the quality of mixture, reduced the cost of labor again, effectively reduced intensity of labour, can bring good economic benefits for the enterprise.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of a mixing apparatus;

FIG. 3 is a schematic structural view of a first horizontal conveyance mechanism;

FIG. 4 is a schematic view of the structure of the vertical conveyance mechanism;

FIG. 5 is a schematic structural view of a second horizontal conveyance mechanism;

fig. 6 is a schematic structural diagram of a furnace end bin.

In the figure: a mixing device 1; a stirring shaft 1-1; a discharge port 1-2; 1-3 of a bearing; 1-4 parts of a paddle; 1-5 parts of a paddle rod; 1-6 parts of a stirring motor;

a first horizontal conveyance mechanism 2; a first conveyor housing 2-1; a first conveying motor 2-2; a first squeegee 2-3; 2-4 parts of a discharge pipe; a first scraper belt 2-5; a first drive shaft 2-6;

a vertical conveying mechanism 3; 3-1 of a belt of a hoist; a support mechanism 3-2; 3-3 of a shell of the elevator; a flow pipe 3-4; 3-5 parts of a driving shaft; 3-6 of a hoister frame;

a second horizontal conveyance mechanism 4; second conveyor housing 4-1; a second conveying motor 4-2; a second scraper 4-3; a second drive shaft 4-4; 4-5 of a second scraper conveyor belt;

a furnace end bin 5; a feed pipe 5-1; 5-2 parts of a level indicator; 5-3 of an impurity filtering device; 5-4 of a bin shell; and 5-5 of gas filtering devices.

Detailed Description

The utility model is further illustrated by the following specific examples. The use and purpose of these exemplary embodiments are to illustrate the present invention, not to limit the actual scope of the present invention in any way, and not to limit the scope of the present invention in any way.

As shown in fig. 1 to 6, the conveying system for mixed materials of the present invention includes a mixing device 1, a first horizontal conveying mechanism 2, a vertical conveying mechanism 3, a second horizontal conveying mechanism 4 and a furnace end bin 5, wherein a discharging end of the mixing device 1 is connected to a feeding end of the first horizontal conveying mechanism 2, a discharging end of the first horizontal conveying mechanism 2 is connected to a feeding end of the bottom of the vertical conveying mechanism 3, a discharging end of the top of the vertical conveying mechanism 3 is connected to a feeding end of the second horizontal conveying mechanism 4, and a discharging end of the second horizontal conveying mechanism 4 is connected to the furnace end bin 5.

The mixing device 1 of the embodiment comprises a shell, wherein a longitudinal stirring shaft 1-1 is arranged in the shell, a bearing 1-3 is arranged at the end part of the stirring shaft 1-1, a plurality of paddle rods 1-5 are distributed along the circumferential direction of the stirring shaft 1-1, blades 1-4 are arranged at the end parts of the paddle rods 1-5, the stirring shaft 1-1 is driven to rotate by a stirring motor 1-6, and a discharge port 1-2 of the mixing device 1 is connected with a first horizontal conveying mechanism 2.

The first horizontal conveying mechanism 2 of the embodiment is a first scraper conveyor and comprises a first conveyor shell 2-1, a first scraper belt 2-5 is arranged in the first conveyor shell 2-1, a plurality of first scrapers 2-3 capable of running along with the first scrapers are arranged on the first scraper belt 2-5, the first scraper belt 2-5 is driven by a first driving shaft 2-6, the first driving shaft 2-6 is driven by a first conveying motor 2-2, and a discharge pipe 2-4 of the first horizontal conveying mechanism 2 is connected with the bottom of the vertical conveying mechanism 3.

The vertical conveying mechanism 3 of the embodiment is a bucket elevator and comprises an elevator shell 3-3 and an elevator rack 3-6, an elevator belt 3-1 is arranged in the elevator shell 3-3, a plurality of elevator buckets are arranged on the elevator belt 3-1, a flow pipe 3-4 at the top of the vertical conveying mechanism 3 is connected with a second horizontal conveying mechanism 4, and a supporting mechanism 3-2 is further arranged at the bottom of the vertical conveying mechanism 3. The belt 3-1 of the hoister is driven by a hoisting motor through a driving shaft 3-5.

The second horizontal conveying mechanism 4 of this embodiment is a second scraper conveyor, and includes a second conveyor housing 4-1, a second scraper conveyor belt 4-5 is disposed in the second conveyor housing 4-1, a plurality of second scrapers 4-3 capable of running along with the belt are disposed on the second scraper conveyor belt 4-5, the second scraper conveyor belt 4-5 is driven by a second driving shaft 4-4, the second driving shaft 4-4 is driven by a second conveying motor 4-2, and a discharge end of the second horizontal conveying mechanism 4 is connected to the bin housing 5-4.

The furnace end bin 5 of the embodiment comprises a bin shell 5-4, the bin shell 5-4 is connected with a second horizontal conveying mechanism 4 through a feeding pipe 5-1 at the top, and an impurity filtering device 5-3 is arranged at a feeding port. Wherein, the impurity filtering device 5-3 is a magnetic grid plate, which mainly filters iron impurities and ensures the quality of the mixture. The furnace end bin 5 is also provided with a level indicator 5-2 and a gas filtering device 5-5, wherein the gas filtering device 5-5 is a pulse dust collector for collecting impurity particles in the filtered air.

For ease of understanding, the operation or working principle of the present embodiment is given below:

the utility model can adopt automatic integrated control, can manually start and stop the device step by step according to the material level of the furnace end bin 5, and can also automatically start and stop the device according to the material level of the furnace end bin 5. A material level meter 5-2 of a furnace end storage bin monitors real-time material level, so that the functions of batching and lifting materials, ultra-low alarm, high-level automatic stopping equipment and ultra-high alarm of low-level automatic starting equipment can be realized, and the safety production is ensured.

When the material level of the furnace end bin 5 reaches a set low level, the equipment is automatically started up to carry out material mixing and conveying, and the starting-up sequence comprises a pulse dust collector, a second scraper conveyor, a bucket elevator, a first scraper conveyor and a material mixing device. The mixing device is characterized in that raw materials are mixed after the mixing device is opened, the mixing time is set, the mixture is discharged into a first scraper conveyor through a discharging port 1-2 of a mixing device 1 after passing through the optimal mixing time, the mixture enters a bucket elevator through a discharging pipe 2-4, the elevator conveys the mixture to a second scraper conveyor through a flow pipe 3-4, then the mixture enters a furnace end bin 5 through a feeding pipe 5-1 at the top of a bin shell 5-4, and a magnetic grid plate is installed in the bin and used for filtering iron impurities, so that the quality of the mixture is guaranteed. When the system cannot be automatically turned on for some reason, the operator can manually turn on the system step by step in sequence.

The stop time of the conveying equipment can be set by calculating the conveying capacity of the scraper and the elevator. When the mixture reaches a set high position, the equipment automatically stops, and the stopping sequence is a mixing device, namely a first scraper conveyor, a bucket elevator, a second scraper conveyor and a pulse dust collector.

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

Claims (9)

1. A conveying system for mix, characterized by: the automatic material mixing device comprises a material mixing device (1), a first horizontal conveying mechanism (2), a vertical conveying mechanism (3), a second horizontal conveying mechanism (4) and a furnace end bin (5), wherein the discharge end of the material mixing device (1) is connected with the feed end of the first horizontal conveying mechanism (2), the discharge end of the first horizontal conveying mechanism (2) is connected with the feed end of the bottom of the vertical conveying mechanism (3), the discharge end of the top of the vertical conveying mechanism (3) is connected with the feed end of the second horizontal conveying mechanism (4), and the discharge end of the second horizontal conveying mechanism (4) is connected with the furnace end bin (5).

2. The system for conveying mix of claim 1, wherein: the mixing device (1) comprises a shell, wherein a longitudinal mixing shaft (1-1) is arranged in the shell, a plurality of paddle rods (1-5) are distributed along the circumferential direction of the mixing shaft (1-1), paddles (1-4) are arranged at the end parts of the paddle rods (1-5), the mixing shaft (1-1) is driven to rotate by a mixing motor (1-6), and a discharge hole (1-2) of the mixing device (1) is connected with a first horizontal conveying mechanism (2).

3. The conveying system for mix according to claim 1 or 2, characterized in that: the first horizontal conveying mechanism (2) is a first scraper conveyor and comprises a first conveyor shell (2-1), a first scraper belt (2-5) is arranged in the first conveyor shell (2-1), a plurality of first scrapers (2-3) capable of running along with the belt are arranged on the first scraper belt (2-5), the first scraper belt (2-5) is driven by a first driving shaft (2-6), the first driving shaft (2-6) is driven by a first conveying motor (2-2), and a discharge pipe (2-4) of the first horizontal conveying mechanism (2) is connected with the bottom of the vertical conveying mechanism (3).

4. The system for conveying mix of claim 3, wherein: the vertical conveying mechanism (3) is a bucket elevator and comprises an elevator shell (3-3) and an elevator rack (3-6), an elevator belt (3-1) is arranged in the elevator shell (3-3), a plurality of elevator buckets are arranged on the elevator belt (3-1), and a flow pipe (3-4) at the top of the vertical conveying mechanism (3) is connected with a second horizontal conveying mechanism (4).

5. The system for conveying mix of claim 4, wherein: the second horizontal conveying mechanism (4) is a second scraper conveyor and comprises a second conveyor shell (4-1), a second scraper conveyor belt (4-5) is arranged in the second conveyor shell (4-1), a plurality of second scrapers (4-3) capable of running along with the belt are arranged on the second scraper conveyor belt (4-5), the second scraper conveyor belt (4-5) is driven by a second driving shaft (4-4), the second driving shaft (4-4) is driven by a second conveying motor (4-2), and the discharge end of the second horizontal conveying mechanism (4) is connected with a bin shell (5-4).

6. The conveying system for mix according to claim 1 or 5, characterized in that: the furnace end bin (5) comprises a bin shell (5-4), the bin shell (5-4) is connected with a second horizontal conveying mechanism (4) through a feeding pipe (5-1) at the top, and an impurity filtering device (5-3) is arranged at the position of the feeding port.

7. The system for conveying mix of claim 6, wherein: the impurity filtering device (5-3) is a magnetic grid plate.

8. The system for conveying mix of claim 6, wherein: the furnace end bin (5) is also provided with a material level meter (5-2) and a gas filtering device (5-5).

9. The system for conveying mix of claim 8, wherein: the gas filtering device (5-5) is a pulse dust collector.

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