JPS6225473Y2 - - Google Patents

Description

[Detailed explanation of the idea] The present invention relates to underwater coal storage equipment.

As a method for storing coal, there is a method of storing it in water due to its advantages such as no scattering of dust, little deterioration of coal quality, and no spontaneous combustion. Conventionally, there are underwater coal storage facilities as shown in FIGS. 1 and 2. That is, the first
What is shown in the figure is a rectangular storage tank 1 that is divided by partition walls 2 into a plurality of storage tank chambers 3, in which coal is transported by a tripper conveyor 4. In what is shown, coal is transported in and out of a plurality of storage tank chambers 7 formed by partitioning the inside of a circular storage tank 5 by radial partition walls 6 by transporting slurry via a transport pipe 8. . By the way, in the case shown in Figure 1,
When transporting coal, the water in the storage tank chamber 3 must be drained once, which has the drawback of taking time and releasing a large amount of water.In addition, in the system shown in Fig. 2, the coal is transported as a slurry. For,
There were disadvantages in that the transportation power became large and dehydration equipment was required.

Therefore, an object of the present invention is to provide an underwater coal storage facility that can eliminate the above-mentioned drawbacks.

That is, in the present invention, a discharge pit is provided at the center of a circular storage tank, a draining hopper is provided in the discharge pit, and a radial partition wall is provided between the discharge pit and the outer wall of the circular storage tank to form a plurality of coal storage tank chambers. A cylindrical body is erected on the upper surface of the discharge pit, a rotary hopper is rotatably supported on the outer periphery of the upper part of the cylindrical body, and a coal carrying belt conveyor is provided to convey coal into the rotary hopper. A first rotating bridge and a second rotating bridge are provided, which are horizontally suspended across the discharge pit and the outer wall of the circular storage tank, and are movable in rotation above each storage tank chamber, and a rotating hopper is attached to the first rotating bridge. It supports the trip conveyor that feeds coal discharged from
The revolving bridge supports an unloader that carries up the coal in the storage tank chamber and a discharge belt conveyor that discharges the coal from the unloader into a draining hopper provided in a discharge pit, and the coal in the draining hopper is formed into a cylindrical shape. An underwater coal storage facility characterized by being provided with a screw-type loader that carries the coal upward through the body, and a belt conveyor for carrying out coal that carries the coal from the screw-type loader to a predetermined location. Coal is stored in each storage tank room via a coal carrying belt conveyor, a rotating hopper, and a tripper conveyor, and the coal is stored in each storage tank room via an unloader, a discharge belt conveyor, a draining hopper, a screw type loader, and a coal carrying belt conveyor. Since the coal is transported through the storage tank, it is possible to transport the coal without discharging the water inside the storage tank as in the conventional method, and the coal can be transported in and out without using slurry transport, which requires large power and special equipment. No dehydration equipment is required.

An embodiment of the present invention will be described below with reference to FIGS. 3 to 6. Reference numeral 11 denotes a circular storage tank, and a cylindrical discharge pit 12 is provided in the center thereof, and an annular space between the discharge pit 12 and the outer wall 11a of the circular storage tank 11 is formed by eight radial partition walls. 13 into eight chambers, each serving as a coal storage chamber 14. Further, in the discharge pit 12, a drain hopper 15 having a large number of drain holes on the entire surface is provided. Reference numeral 16 denotes a cylindrical body which is erected on the upper plate 17 of the discharge pit 12 and whose upper and lower ends are open. A first support 18 has one end supported on the upper end of the cylindrical body 16 and the other end supported on the upper end of a support column 19 erected at a position outside the outer wall 11a of the storage tank.
A fixed bridge 20 is a second fixed bridge provided at a position opposite to the first fixed bridge 18, and like the first fixed bridge 18, one end thereof is supported on the upper end of the cylindrical body 16, and the other end is supported. is storage tank outer wall 1
It is supported by the upper end of a column 21 which is erected at the outer position of 1a. A belt conveyor 22 for carrying in coal is supported on the first fixed bridge 18, and a belt conveyor 23 for carrying out coal is supported on the second fixed bridge 20. 24 is a cylindrical body 16
An annular rotary hopper rotatably held on the upper outer periphery is used to guide coal onto a tripper conveyor (described later) which is rotatably movable above each storage tank chamber 14. That is, the rotary hopper 24 extends between the inner cylinder 25 and the outer cylinder 26 and extends radially six times.
A hopper body 28 having vertical scraping plates 27 arranged thereon, and a hopper body 28 that is connected to a cylindrical body 16.
A rotary roller 29 is rotatably supported on the outer periphery and rotated, and a discharge port is rotatably supported on the outer periphery of the cylindrical body 16 via a bearing 30 at a position slightly apart from the lower end of the hopper body 28, and a discharge port is provided at a predetermined position. 31a, and a guide chute 32 whose upper end is connected to the lower part of the discharge port 31a of the annular receiving plate 31 and whose lower end is opened onto a tripper conveyor (described later). There is. Reference numerals 33 and 34 designate first and second swing bridges that are swingably movable above each of the storage tank chambers 14. That is, at one end of each of the swing bridges 33 and 34, there is a running wheel 3 that can freely run on a guide rail (not shown) provided on the upper surface of the upper plate 17 of the cylindrical body 16.
5A is attached, and a running wheel 35B that can run freely on a guide rail (not shown) provided on the upper surface of the storage tank outer wall 11a is attached to the other end. Of course, a drive device (not shown) is provided on a predetermined one of the running wheels 35A, 35B. The first rotating bridge 33 receives coal from the rotating hopper 24 into each storage tank chamber 14.
A tripper conveyor 36 is supported. Of course, the input port 36a of the tripper conveyor 36 is movable on the storage chamber 14 along its radial direction. Note that the rotating hopper 24
The guide chute 32 of the rotary hopper 24 is fixed to the first pivot bridge 33 via a support member 32a, so that no matter what position the first pivot bridge 33 is in, the outlet 31a of the rotary hopper 24 is always connected to the tripper conveyor 36. It will be open at the top. A screw-type unloader 3 that carries the coal in the storage tank chamber 14 upward is attached to the second swing bridge 34.
7, and a discharge belt for discharging the coal carried up by the screw type unloader 37 into the draining hopper 15 in the discharge pit 12 through openings 17a formed at a plurality of required locations in the discharge pit upper plate 17. A conveyor 38 is supported. In addition,
The screw type unloader 37 is connected to each storage tank chamber 1 in the same manner as the input port 36a of the tripper conveyor 36.
It is movable in the radial direction within the storage chambers 14, and is also able to swing above the partition wall 13 so that its lower end does not hit the partition wall 13 when moving between the storage chambers 14. Also, 39 is the upper plate 17
This is a coal discharge chute provided at a position corresponding to the opening 17a. A screw type loader 40 is disposed and supported within the cylindrical body 16 and carries the coal in the colander hopper 15 onto the coal carrying belt conveyor 23. Note that 41 is its discharge chute. Further, reference numeral 42 denotes a water pump disposed within the discharge pit 12 and below the draining hopper 15 for returning water separated from the coal into each storage tank chamber 14.

Next, the operation of carrying coal into the storage tank chamber will be explained. It is assumed that water is already filled in each storage tank chamber.

First, the first rotating bridge 33 is pivoted onto the storage tank chamber 14 where storage is to be performed, and the hopper body 28 of the rotary hopper 24 is rotated. Next, the belt conveyor 22 for carrying in coal is operated to charge coal into the hopper main body 28. Then, the coal is moved on the annular receiving plate 31 by the scraping plate 27, but when it reaches the discharge port 31a, it falls from the discharge port 31a via the guide chute 32 onto the tripper conveyor 36, Then, they are sequentially dropped into predetermined locations from the input port 36a and stored.

Next, the case where coal is carried out from the storage tank chamber will be explained.

First, the second swing bridge 34 is rotated onto the storage tank chamber 14 from which coal is to be discharged, and the screw type unloader 37 is lowered, and the screw type unloader 37, the discharge belt conveyor 38, the screw type loader 40, and the coal discharge belt conveyor are moved. 23 respectively. Then, storage chamber 1
After the coal in 4 is conveyed onto the discharge belt conveyor 38 by the screw type unloader 37,
The water is dropped into the draining hopper 15 by the discharge belt conveyor 38, where it is separated. The coal from which the water has been separated is carried upward by the screw type loader 40 and discharged onto the coal carrying belt conveyor 23, and the coal is carried out to a predetermined location by this coal carrying belt conveyor 23. . On the other hand, the water accumulated below the drainer hopper 15 is removed from the storage tank chamber 1 by a water pump 42.
It will be returned within 4.

According to the above configuration, coal is stored in each storage tank chamber via a coal carrying belt conveyor, a rotating hopper, and a tripper conveyor, and coal is stored in each storage tank room via an unloader, a discharge belt conveyor, a draining hopper, a screw type loader, and a coal conveyor. Since the coal is carried out via a carrying belt conveyor, it is possible to carry out the coal without discharging the water in the storage tank as in the conventional case, and it is also possible to carry the coal in and out without having to transport slurry. It does not require large power or special dewatering equipment.

[Brief explanation of the drawing]

1 and 2 are longitudinal sectional views of a conventional example, and FIGS. 3 to 6 show an embodiment of the present invention.
4 is an overall sectional view, FIG. 4 is a plan view, FIG. 5 is an enlarged sectional view of a main part, and FIG. 6 is a view taken along the - arrow in FIG. 11...Storage tank, 11a...Storage tank outer wall, 12...
Discharge pit, 13...partition wall, 14...storage chamber,
15... Drainer hopper, 16... Cylindrical body, 22...
... Belt conveyor for carrying in coal, 23... Belt conveyor for carrying out coal, 24... Rotating hopper, 25...
...Inner cylinder, 26...Outer cylinder, 27...Scraping board, 28...
... Hopper body, 29 ... Rotating roller, 30 ... Bearing, 31 ... Annular receiving plate, 31a ... Discharge port, 32
...Guidance chute, 33...First swing bridge,
34...Second swing bridge, 36...Tripper conveyor, 37...Screw type unloader, 38
... Discharge belt conveyor, 40 ... Screw type loader, 42 ... Lifting pump.

Claims (1)

[Scope of utility model registration request] A discharge pit is provided in the center of the circular storage tank, and a draining hopper is provided in the discharge pit, and the space between the discharge pit and the outer wall of the circular storage tank is divided into a plurality of coal storage tank chambers by radial partition walls, and the coal storage tank chambers are separated from the outer wall of the circular storage tank. A cylindrical body is erected on the upper surface of the pit, a rotary hopper is rotatably supported on the outer periphery of the upper part of the cylindrical body, and a belt conveyor for carrying in coal is provided to convey coal into the rotary hopper. A first rotating bridge and a second rotating bridge are provided, which are horizontally suspended across the outer wall of the storage tank and are movable in rotation above each storage tank chamber, and the first rotating bridge is provided with coal discharged from the rotating hopper. An unloader that supports a tripper conveyor that feeds coal into the storage tank chamber and carries the coal in the storage tank chamber to the second swing bridge, and a discharge device that discharges the coal from the unloader into a drainage hopper provided in the discharge pit. A screw-type loader is provided to support the belt conveyor and transport the coal in the draining hopper upward through the cylindrical body, and a coal-carrying belt conveyor is provided to transport the coal from the screw-type loader to a predetermined location. Underwater coal storage equipment.