JPH0653525B2 - Bulk solids storage and supply facility - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to improvements in a motor product-related, a structure of a coal bunker and a silo for a solid fuel supply facility, and a handling device around the same.

The present invention can also be applied to a storage and supply device for solid fuels other than coal, such as petroleum coke and wood chips.

[Conventional technology]

 FIG. 3 shows an example of conventional coal storage and supply equipment.

In FIG. 3, the coal received in the receiving hopper 2-is transferred to the silo 2-by the transfer / coking conveyor 2-, and is stored there, and then transferred from the bottom of the silo 2-coking conveyor 2 at the time of coal supply. -By bunker 2-
It is carried to the destination where the bunker 2-is used.

Here, the minimum amount of coal used as a storage facility for coal is 2
A silo 2-with a capacity of 3 days is installed, and in addition to this, a bunker 2-with a small capacity (several hours to 1 day) has been separately installed. It is often installed at the same height as a silo because it is installed close to where it is used, and its outlet is narrowed due to the relationship with subsequent equipment. Therefore, one or several transfer / coking conveyors 2-are required between the silo 2-and the bunker 2-. Thus, in the conventional case, coal is received in the receiving hopper 2-
A conveyor system that uses the transfer / coking conveyor 2-which requires the same function as the conveyor 2-again from the bottom of the silo after being unloaded by one or several transfer / coking conveyors 2- There were a lot of cases to assemble.

[Problems to be solved by the invention]

In this way, when the coal supply bunker and silo are installed separately,
Even if the bunker had a small capacity, the support pedestal was necessary, and the higher the installation level, the larger the pedestal.

In addition, a space for transfer / coking conveyor installation between the silo and bunker was required, which also affected the layout of other conveyor equipment.

Also, in order to move coal from the silo to the supply bunker, it is necessary to have one having the same function as the transfer / coking conveyor from the receiving hopper to the silo, which is a conveyor with a special structure,
There was also the problem of secondary adverse effects such as environmental deterioration due to coal littering as well as an increase in the burden of equipment costs and maintenance.

[Means for solving problems]

An object of the present invention is to solve these problems and to provide a practically useful storage and coal supply system. That is, the present invention is to connect a receiving hopper, a storage silo, a supply bunker, and them. In a system for storing and supplying lumpy solids, which comprises a conveyor for transporting lumpy solids, the bunker for supply is built in so as to be in close contact with the outer wall of the silo body, and is located at the bottom end of the bunker and penetrates the outer wall of the silo A discharge port, a level detector installed at the upper and lower parts of the silo and a lower part of the bunker, a conveyor for transferring lump solids from the receiving hopper to the bunker, and from the lower end of the silo body. An agglomerate solids storage and supply facility, characterized in that the agglomerate solids storage and supply facility comprises another conveyer for supplying the agglomerate solids discharged in the middle of the conveyer. It is provided.

[Action]

The solid lumps conveyed by the conveyor from the receiving hopper are. It is put into the bulkhead bunker built in the silo,
It is supplied to the destination through a discharge port provided on the side surface.

Next, when the solids stored in the bunker become full, the solids naturally overflow from the edges of the bulkhead, and storage in the silo body begins. The amount of storage in the silo can be detected by detecting the level, and when it is full, the supply is stopped.

Further, when supplying the solid lumps to the destination, the level in the built-in bunker is detected, and the conveyor from the bottom of the silo transfers it to the unloading conveyor for transferring it from the receiving hopper to the silo. By supplying lumpy solids to the inside, it is possible to constantly supply them to the destination. In addition, this operation can be operated both artificially and automatically.

〔Example〕

FIG. 1 is a schematic view of a coal storage and supply facility which is an embodiment of the storage and supply facility of the present invention, and FIG. 2 shows a specific operation control mechanism of this embodiment.

In FIG. 1, 1 is a receiving hopper that receives coal from a truck, trailer, etc., 2 is a conveyor that transfers coal from the receiving hopper 1 to a built-in bunker, 3 is a silo with a built-in bunker, and 4 is discharged from the bottom of the silo 3. Conveyor for transferring the coal to the conveyor 2, 5 is a partition wall forming a bunker,
Reference numeral 6 indicates a coal discharge port from the built-in bunker.

In Fig. 2, level detectors LS ₁ and LS ₂ are installed at the bottom of the silo and at the bottom of the built-in bunker, respectively, and when supplying the coal to be used, the silo payout conveyor 4 and coal dumping are performed by the low level signal of the bunker detector LS _1. Automatically start the conveyor. As a result, the goods stored in the silo in advance are loaded again from the upper part of the silo, and if the amount of entering the bunker side increases, it overflows and is stored in the lower part of the silo. On the other hand, if the level in the silo decreases, the detector LS
_{2 is} detected and is replenished from the coal receiving facility at the previous stage (automatically or by operator's operation) through the transfer / coking conveyor 2. If the silo becomes full due to a large amount of replenishment, the detector LS ₃ will detect it, and an interlock will be installed so that the coal transportation conveyor will automatically stop.

Here, the silo delivery conveyor 4 is a conventional transfer /
Unlike a coal unloading conveyor, it does not have any special functions because it is almost horizontal transfer, and it is also advantageous in terms of maintenance.

〔The invention's effect〕

 According to the present invention, the following effects can be obtained.

1. By integrating the silo / bunker into a single unit, there is no need for a conventional pedestal bunker installation support, and the equipment cost is greatly reduced.

2. Simplification of the conveyor system will lead to a significant reduction in equipment costs and maintenance costs.

3. A single silo / banker reduces the space required for placement.

[Brief description of drawings]

FIG. 1 is a schematic view of a coal storage and supply facility which is an embodiment of the present invention, FIG. 2 is a view showing a concrete operation control mechanism of the embodiment shown in FIG. 1, and FIG. 3 is a conventional coal storage Schematic which shows an example of supply equipment. 1 ... Receiving hopper, 2 ... Transfer / coking conveyor, 3 ... Silo, 4 ... Silo discharging conveyor, 5 ... Silo bunker bulkhead, 6 ... Discharge port, LS ₁ ... Silo bunker low level detector, LS ₂ ... Silo Inner low level detector, LS ₃ … Full silo detector

Claims (1)

[Claims] 1. A system for storing and supplying solid lumps comprising a receiving hopper, a storage silo, a supply bunker, and a conveyor for connecting them to convey the solid lumps.
The supply bunker built in so as to be in close contact with the outer wall of the silo body, the discharge port provided at the lowermost end of the bunker so as to penetrate the outer wall of the silo, and the upper and lower parts of the silo and the lower part of the bunker. From the level detectors respectively installed, a conveyor for transferring the solid lumps from the receiving hopper to the bunker, and another conveyor for supplying the solid lumps discharged from the lower end of the silo body to the middle of the conveyor. Bulk solids storage and supply facility characterized by