CN216377886U - Glass production batching transfer chain - Google Patents

Abstract

The utility model discloses a glass production batching conveying line, which comprises a raw material bin, a recovery bin, a stokehole bin and a first material conveying mechanism, wherein the raw material bin is provided with a raw material feeding and weighing mechanism, a second material conveying mechanism and a material mixing mechanism; the recovery bin is provided with a recovered material loading and weighing mechanism; the first material conveying mechanism connects the raw material bin, the recovery bin and the stokehole bin in series, is used for receiving the mixture of the material mixing mechanism and the recovered material weighed by the recovered material loading and weighing mechanism, and conveys the mixture to the stokehole bin. The utility model has high conveying efficiency and avoids dust pollution and potential safety hazard.

Description

Glass production batching transfer chain

Technical Field

The utility model relates to the technical field of glass production, in particular to a glass production batching conveying line.

Background

At present, glass manufacturing plant's material transport generally adopts the forklift to shuttle back and forth in the workshop to carry the material of feed bin to feed proportioning system, and carry the material of having joined in marriage to the stokehold feed bin that is close to ranks machine, because feed bin, proportioning bin and stokehold feed bin overall arrangement are scattered, and the material is mostly powdery raw materials, can aggravate dust pollution in transportation and the pay-off process.

The recycled material is also conveyed by a forklift into the furnace. The reclaimed materials, namely the cullet, are conveyed by a forklift and are easily scattered in a workshop, so that potential safety hazards are caused.

Because the space of the glass production workshop is large, workers drive the forklift to transport materials across the region, the cost is high, and the safety cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a glass production batching conveying line which is high in conveying efficiency and avoids dust pollution and potential safety hazards.

In order to solve the technical problems, the utility model provides a glass production batching conveying line which comprises a raw material bin, a recovery bin, a stokehole bin and a first conveying mechanism, wherein the raw material bin is provided with a raw material feeding and weighing mechanism, a second conveying mechanism and a mixing mechanism;

the recovery bin is provided with a recovered material loading and weighing mechanism;

the first material conveying mechanism connects the raw material bin, the recovery bin and the stokehole bin in series, is used for receiving the mixture of the material mixing mechanism and the recovered material weighed by the recovered material loading and weighing mechanism, and conveys the mixture to the stokehole bin.

As an improvement of the above scheme, the first material conveying mechanism comprises a first belt material conveyor, a first bucket elevator and a second belt material conveyor, wherein the first belt material conveyor is arranged between the raw material bin and the recovery bin and is positioned below the material mixing mechanism and the recovered material loading and weighing mechanism;

the first bucket elevator is positioned at the output end of the first belt conveyor and used for lifting materials to the second belt conveyor;

and the second belt conveyor is used for conveying materials to a stokehole storage bin.

As an improvement of the scheme, the raw material feeding and weighing mechanism comprises a particle feeding and weighing mechanism and a powder feeding and weighing mechanism, the particle feeding and weighing mechanism and the powder feeding and weighing mechanism respectively comprise a first storage bin and a first weighing hopper located below the first storage bin, the particle feeding and weighing mechanism further comprises a second hopper lifting machine arranged above the first storage bin, the powder feeding and weighing mechanism further comprises a pneumatic conveying line, and the discharge end of the pneumatic conveying line is connected with the upper portion of the first storage bin.

As an improvement of the scheme, the powder feeding and weighing mechanism further comprises an elevator feeding conveying line, and the elevator feeding conveying line is used for conveying bagged powder.

As an improvement of the above scheme, a first blanking channel is arranged at the top of the first bucket elevator, a second blanking channel and a third blanking channel which are communicated with the first blanking channel are arranged at the bottom of the first blanking channel, a discharge port of the second blanking channel is arranged above the second belt conveyor, and a discharge port of the third blanking channel is arranged below the second belt conveyor.

As an improvement of the scheme, a spiral conveyor or a movable belt conveyor is arranged between the first weighing hopper and the first storage bin of the powder feeding and weighing mechanism.

As an improvement of the scheme, the reclaimed material loading and weighing mechanism comprises a second storage bin, a second weighing hopper positioned below the second storage bin, and a lifting loading machine positioned above the second storage bin.

As an improvement of the scheme, the first storage bin is provided with a bin wall vibrator.

As an improvement of the scheme, the second material conveying mechanism comprises a third belt material conveying machine, and suspended belt type permanent magnet iron removers are arranged on the third belt material conveying machine and the first belt material conveying machine.

As an improvement of the scheme, the second belt conveyor comprises an entrance conveyor belt and a crossing conveyor belt which are connected in a crossing manner, and the crossing conveyor belt is arranged between the entrance conveyor belt and the first bucket elevator.

The implementation of the utility model has the following beneficial effects:

the utility model discloses a glass production batching and conveying line, wherein a raw material feeding and weighing mechanism, a second material conveying mechanism and a material mixing mechanism of a raw material bin finish batching and mixing of raw materials, and the raw material bin, a recovery bin and a stokehole bin are connected in series through the first material conveying mechanism, so that the well-proportioned and mixed raw materials and the recovery materials can be converged in front of a furnace together, and the firing in the furnace is realized; the raw materials and the reclaimed materials are transported together, the conveying efficiency is high, the cost is low, the situation that dust pollution is aggravated due to the fact that workers drive the forklift to transport the materials across the region in a workshop is avoided, and the related potential safety hazards in transportation are avoided.

Drawings

FIG. 1 is a schematic structural view of one embodiment of a glass manufacturing batch delivery line of the present invention;

FIG. 2 is a schematic view of the cross-sectional structure A-A of FIG. 1;

fig. 3 is a schematic view of a sectional structure B-B of fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the present embodiment provides an embodiment of a glass production batching conveying line, which includes a raw material bin 1, a recovery bin 2, a stokehole bin 3, and a first material conveying mechanism, and with reference to fig. 2, the raw material bin 1 is provided with a raw material feeding and weighing mechanism 11, a second material conveying mechanism and a material mixing mechanism 13, the second material conveying mechanism is configured to convey raw materials weighed by the raw material feeding and weighing mechanism 11 into the material mixing mechanism 13, and the material mixing mechanism 13 is configured to mix the raw materials into a mixture; the recovery bin 2 is provided with a recovered material feeding and weighing mechanism 21; the first material conveying mechanism connects the raw material bin 1, the recovery bin 2 and the stokehole bin 3 in series, is used for receiving the mixture of the material mixing mechanism 13 and the recovered material weighed by the recovered material loading and weighing mechanism 21, and conveys the mixture to the stokehole bin 3.

In this embodiment, the raw material loading weighing mechanism 11, the second material conveying mechanism and the material mixing mechanism 13 of the raw material bin 1 complete the batching and mixing of the raw materials, and the raw material bin 1, the recovery bin 2 and the stokehole bin 3 are connected in series through the first material conveying mechanism, so that the batched and mixed raw materials and the recovered materials can be converged in front of the stokehole together, and the firing in the stokehole is realized; the raw materials and the reclaimed materials are transported together, the conveying efficiency is high, the cost is low, the situation that dust pollution is aggravated due to the fact that workers drive the forklift to transport the materials across the region in a workshop is avoided, and the related potential safety hazards in transportation are avoided.

Referring to fig. 3, since the raw material loading weighing mechanism 11 and the reclaimed material loading weighing mechanism 21 occupy a large longitudinal space, and usually require several floors of space for installing related devices, while the longitudinal space of the glass-firing kiln, the glass forming line and row machine, etc. is small, the first material conveying mechanism of this embodiment preferably includes a first belt conveyor 41, a first bucket elevator 42 and a second belt conveyor 43, and the first belt conveyor 41 is disposed between the raw material bin 1 and the reclaimed material bin 2 and below the material mixing mechanism 13 and the reclaimed material loading weighing mechanism 21; the first bucket elevator 42 is positioned at the output end of the first belt conveyor 41 and used for lifting materials to the second belt conveyor 43; the second belt conveyor 43 is used for conveying materials to the stokehole bunker 3. Because the stokehole bunker 3 generally corresponds to a plurality of kilns and row-column machine equipment, in order to facilitate feeding and increase space utilization, the second belt conveyor 43 of this embodiment specifically includes an entrance conveyor 431 and a crossing conveyor 432 that are cross-connected, and the crossing conveyor 432 is disposed between the entrance conveyor 431 and the first bucket elevator 42.

The reclaimed material loading and weighing mechanism 21 specifically includes a second storage bin 211, a second weighing hopper 212 located below the second storage bin 211, and a lifting feeder 213 located above the second storage bin 211. The discharge port of the second weighing hopper 212 is arranged opposite to the first belt conveyor 43, so that the quantitative conveying of the cullet is realized.

For the convenience of conveying the raw materials during the material blending process, the second material conveying mechanism of this embodiment includes a third belt conveyor 121. In order to remove a small amount of metal impurities from the raw material and the cullet, the third belt conveyor 121 and the first belt conveyor 41 are provided with a suspended belt type permanent magnet iron remover (not shown). Because raw materials and reclaimed materials tile on the defeated material machine of belt, metallic impurity in the transportation is rejected more easily, removes metallic impurity's effectual.

The raw material feeding and weighing mechanism 11 specifically comprises a granular material feeding and weighing mechanism for conveying granular materials a (such as silica sand) and a powder feeding and weighing mechanism for conveying powder materials (including bulk powder materials b and bagged powder materials c), the granular material feeding and weighing mechanism and the powder feeding and weighing mechanism both comprise a first storage bin 111 and a first weighing hopper 112 positioned below the first storage bin 111, the granular material feeding and weighing mechanism further comprises a second hopper lift 113 arranged above the first storage bin 111, for the bulk powder materials b (such as soda), the powder feeding and weighing mechanism further comprises a pneumatic conveying line 114, and a discharge end of the pneumatic conveying line 114 is connected with the upper part of the first storage bin 111; for the bagged powder c (such as mirabilite), the powder feeding and weighing mechanism further comprises an elevator feeding conveying line 115 for conveying the bagged powder c. The bulk powder b is positioned in a closed pipeline by the pneumatic conveying line 114 and is conveyed by high-pressure air, so that dust pollution in the conveying process is avoided. Bagged powder c is conveyed by an elevator feeding conveying line 115, and the efficiency is high.

The top of first bucket elevator 42 is equipped with first blanking passageway 421, the bottom of first blanking passageway 421 is equipped with communicating second blanking passageway 422 and third blanking passageway 423 with it, the discharge gate setting of second blanking passageway 422 is in second belt conveyor 43 top, the discharge gate setting of third blanking passageway 423 is in second belt conveyor 43 below. The third blanking channel 423 can facilitate the interruption of the transportation of the incorrectly-matched materials from the transportation link of the first hopper lift 42 under the condition of wrong material distribution, thereby avoiding the pollution to the second belt conveyor 43 or the stokehole bunker 3.

Since the bulk powder b is easy to form scabs or form a hollow arch structure, in order to facilitate the bulk powder b to smoothly enter the first weighing hopper 112 for weighing, the first storage bin 111 is provided with a bin wall vibrator (not shown in the figure), and a screw conveyor 116 or a moving belt conveyor is arranged between the first weighing hopper 112 and the first storage bin 111 of the powder feeding and weighing mechanism.

While the utility model has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the utility model is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (10)

1. A glass production batching conveying line is characterized by comprising a raw material bin, a recovery bin, a stokehole bin and a first conveying mechanism,

the raw material bin is provided with a raw material feeding and weighing mechanism, a second material conveying mechanism and a material mixing mechanism, the second material conveying mechanism is used for conveying the raw materials weighed by the raw material feeding and weighing mechanism into the material mixing mechanism, and the material mixing mechanism is used for mixing the raw materials into a mixture;

the recovery bin is provided with a recovered material loading and weighing mechanism;

the first material conveying mechanism connects the raw material bin, the recovery bin and the stokehole bin in series, is used for receiving the mixture of the material mixing mechanism and the recovered material weighed by the recovered material loading and weighing mechanism, and conveys the mixture to the stokehole bin.

2. The glass production batching conveyor line according to claim 1, wherein said first conveying mechanism comprises a first belt conveyor, a first bucket elevator and a second belt conveyor, said first belt conveyor being disposed between said raw material bin and said recycling bin and below said mixing mechanism and said recycled material loading and weighing mechanism;

the first bucket elevator is positioned at the output end of the first belt conveyor and used for lifting materials to the second belt conveyor;

and the second belt conveyor is used for conveying materials to a stokehole storage bin.

3. The glass production batching conveying line according to claim 1 or 2, wherein the raw material feeding and weighing mechanism comprises a particle feeding and weighing mechanism and a powder feeding and weighing mechanism, the particle feeding and weighing mechanism and the powder feeding and weighing mechanism each comprise a first storage bin and a first weighing hopper positioned below the first storage bin, the particle feeding and weighing mechanism further comprises a second hopper lifter positioned above the first storage bin, the powder feeding and weighing mechanism further comprises a pneumatic conveying line, and a discharge end of the pneumatic conveying line is connected with the upper part of the first storage bin and used for conveying bulk powder.

4. The glass production batch conveying line according to claim 3, wherein the powder loading and weighing mechanism further comprises an elevator loading conveying line, and the elevator loading conveying line is used for conveying bagged powder.

5. The glass production batching conveying line according to claim 2, wherein a first blanking channel is arranged at the top of the first bucket elevator, a second blanking channel and a third blanking channel are arranged at the bottom of the first blanking channel and communicated with the first blanking channel, the discharge port of the second blanking channel is arranged above the second belt conveyor, and the discharge port of the third blanking channel is arranged below the second belt conveyor.

6. The glass production batch delivery line of claim 3, wherein a screw conveyor or a moving belt conveyor is provided between the first weigh hopper and the first storage bin of the powder loading and weighing mechanism.

7. The glass production batch delivery line of claim 1, wherein the reclaimed material loading scale mechanism comprises a second storage silo, a second scale hopper positioned below the second storage silo, and a lift feeder positioned above the second storage silo.

8. The glass manufacturing batch delivery line of claim 3, wherein the first storage silo is provided with a silo wall vibrator.

9. The glass production batch delivery line of claim 2, wherein said second delivery mechanism includes a third belt feeder;

and the third belt conveyor and the first belt conveyor are both provided with a suspended belt type permanent magnet iron remover.

10. The glass manufacturing batch delivery line of claim 2, wherein said second belt conveyor includes a cross-linked entrance conveyor and a cross conveyor, said cross conveyor being disposed between said entrance conveyor and said first hopper lift.

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