KR20180077565A - Discharging apparatus and method for bulk - Google Patents

Abstract

The present invention relates to a bulk transfer apparatus and a method thereof. According to the present invention, air is upwardly injected through an upper nozzle group to form a splitting area inside a bulk tank so as to primarily split a bulk into several parts and air is upwardly injected through a lower nozzle group to form a fluidizing area inside the bulk tank so as to secondarily mix the bulk, such that the mixed bulk is fluidized and discharged to increase bulk transfer efficiency and the bulk in the bulk tank is prevented from being mixed with each other to prevent a bulk transfer pipe from being clogged, thereby being able to normally discharge the bulk. In particular, the bulk transfer pipe is prevented from being clogged, thereby providing effects of reducing explosion risk of the bulk transfer pipe, preventing stress from being applied to a pneumatic device (air injection device), and not requiring a separate bulk removing line for removing a clogged part in the bulk transfer pipe.

Description

[0001] DESCRIPTION [0002] DISCHARGING APPARATUS AND METHOD FOR BULK [0003]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and a method for transferring (discharging) bulk in a bulk tank, and more particularly, to an apparatus and a method for transferring (bulking) a bulk in a bulk tank through an upper nozzle group, And a splitting area is formed in the upper part of the interior of the bulk tank to divide the bulk into several pieces. The air is sprayed downward through the lower nozzle group installed downward in the bulk tank, The present invention relates to a bulk conveying apparatus and method capable of improving bulk conveying efficiency by forming a fluidizing area and mixing and fluidizing the bulk in a secondary manner and discharging the bulk.

Generally, in offshore structures such as drillships, FPSOs and the like, the mud is continuously supplied into the drill pipe to stabilize the pressure of the drill bit and the lubrication and well during drilling. These muds are made by mixing bulk and water such as bentonite, barite, cement and the like.

The bulk transfer device is configured to transfer the bulk of bentonite, bare light, cement and the like from the bulk tank, which is the starting tank, to the surge tank, which is the destination tank, with compressed air, and the mixture of air and bulk introduced into the surge tank The bulk is stacked underneath and the air is conveyed through the vent line to the dust collector.

Further, in the bulk cargo ship, the bulk of the powdered cement, sand, grain, salt, etc. is stored in the bulk tank, and the bulk is transported to the predetermined unloading place.

In this way, in the case of transferring the bulk stored in the bulk tank to the outside of the bulk tank in the floating tank with the bulk tank, the bulk stored in the bulk tank is passed through the bulk transfer pipe by applying pressure in the bulk tank by the pneumatic device, When the bulk in the bulk tank is not fluidized, the bulk can be held together, which may cause clogging in the bulk transfer pipe, which makes it difficult to transfer the bulk in a normal manner.

In particular, if the bulk conveying pipe is clogged, continued pressure will put the bulk conveying pipe at risk of explosion or pneumatic device overload.

The miniature low pressure type bulk tank is configured such that the bulk transfer pipe discharges the bulk at its own weight to the bottom of the bulk tank and the discharged bulk is blown to the blower. Bulk of a small-sized low-pressure type bulk tank is lowered by its own weight, but fluidization is not smooth, and pipe clogging phenomenon frequently occurs.

Also, in a large-capacity high-pressure type bulk tank, the bulk is hardly solidified due to the bulk self-load, so that the fluidization is considerably difficult at the initial stage and the pressure loss inside the bulk tank is considerably large even if fluidized.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view showing a conventional spider nozzle type bulk conveying apparatus in a medium-to-large bulk tank. FIG.

1, the conventional spider nozzle type bulk conveyance apparatus 10 is provided with an air injection pipe 11 at the center of the bulk tank 1 for conveying a bulk (bulk) A spider nozzle 12 is installed at an end of the nozzle 11.

In order to discharge the bulk, the bulk transfer pipe 13 is installed in the shape of a bend bent upward in the center of the bulk tank 1. When the air is injected into the bulk tank 1 through the spider nozzles 12, the bulk air and the air in the bulk tank 1 are injected into the bulk tank 1 through the bulk transfer pipe 13 by the air pressure injected from the spider nozzles 12, (1) to the outside.

However, the conventional spider nozzle type bulk conveyance apparatus 10 has a problem in that the bulk emission efficiency is poor because the entrance of the bulk conveyance pipe is located far away from the center of the bulk tank due to its structure.

2 is a cross-sectional view showing a conventional canvas type bulk transfer device in a middle- or large-sized bulk tank.

2, a conventional canvas type bulk conveying apparatus 20 is provided with a canvas (wire netting) 21 having an air hole at the bottom of the bulk tank 2 for conveying the bulk, An air injection pipe 22 for injecting air into the bulk tank 2 is provided at the lower portion of the canvas 21. [

A bulk transfer pipe 23 is provided at the lower center of the bulk tank 2 on the upper side of the canvas 21.

Conventional canvas type bulk conveyance apparatus 20 has a limitation in raising the mixing ratio of air and bulk in the bulk tank 1 only by air blowing through the pores of the canvas (wire netting) 21, The transportation rate is low and clogging phenomenon occurs in the bulk transfer pipe 10, which makes it difficult to transfer the bulk in a stable manner and significantly reduces the working efficiency due to the transfer of the bulk.

Korean Laid-Open Utility Model No. 20-2013-0001590 Korean Laid-Open Utility Model No. 20-2013-0004101 Korean Patent Publication No. 10-2015-0081545

Disclosure of Invention Technical Problem [8] In order to solve the above-described problems, the present invention is directed to a method of injecting air injected into a bulk tank through an upper nozzle group disposed upwardly in a bulk tank into a space above a bulk tank, And the air is blown downward through a group of lower nozzles arranged downward in the bulk tank to form a fluidizing area in the lower part of the bulk tank to mix the bulk and fluidize the bulk And it is an object of the present invention to provide a bulk conveying apparatus and method capable of improving bulk conveying efficiency as well as reducing the risk of explosion.

In order to achieve the above object, the present invention provides a bulk transfer apparatus and method.

The bulk transfer apparatus of the present invention comprises: an air injection pipe installed in an inner lower portion of the bulk tank for injecting air into a bulk tank; An upper nozzle group installed at an upper end of the air injection pipe for splitting the bulk in the bulk tank into plural pieces and mixing the bulk of the primary particles; A lower nozzle group installed at a lower end of the air injection pipe so as to mix the primary mixed by the upper nozzle group in a second order; And a bulk conveying pipe formed at a lower portion of the bulk tank for discharging the bulk fluidized by the lower nozzle group to the outside of the bulk tank; .

Wherein the air injection pipe is installed horizontally in an inner lower portion of the bulk tank, the first air injection pipe having the upper nozzle group installed therein; And a second air injection pipe installed horizontally in an inner lower portion of the bulk tank and crossing the first air injection pipe in a cross shape, wherein the lower nozzle group is installed; Respectively.

In the upper nozzle group, upper nozzles provided at both ends of the air injection pipe may be inclined so as to inject air toward the inner wall surface of the bulk tank.

The upper nozzle group and the lower nozzle group may be configured as flat fan nozzles.

In the meantime, in the bulk transfer method of the present invention, an air injection pipe is installed in an inner lower portion of the bulk tank for injecting air into the bulk tank, and a bulk transfer pipe for discharging the fluidized bulk is installed in the lower portion of the bulk tank A method of conveying a bulk of a bulk tank in a bulk tank, the method comprising: providing an upper nozzle group at an upper end of the air injection pipe, and a lower nozzle group at a lower end of the air injection pipe, Air is blown upward to divide the bulk in the bulk tank into several pieces, the cleaved bulk is mixed first, the air is blown downward through the lower nozzle group, and the mixture is secondarily mixed to fluidize the bulk, To the outside of the bulk tank.

The method of claim 1, further comprising: injecting air upwardly through the upper nozzle group to form a splitting area within the bulk tank; spraying air upward through the lower nozzle group to form a fluidizing area within the bulk tank; .

As described above, according to the present invention, air injected into a bulk tank through an upper nozzle group disposed upward in a bulk tank is jetted upward from the bulk tank to form a splitting area in the upper part of the bulk tank And the air is blown down through a group of lower nozzles installed downward in the bulk tank to form a fluidizing area in the lower part of the interior of the bulk tank to mix and bulk the bulk in the secondary tank By discharging it, bulk transport efficiency can be improved.

In addition, a splitting area is formed in the upper part of the inside of the bulk tank to divide the bulk into several pieces, and air is blown downward through the lower nozzle group installed downward in the bulk tank, fluidizing area is formed and the bulk is mixed and fluidized in the second order so that the bulk in the bulk tank is not bundled with each other and thus the clogging in the bulk conveyance pipe is prevented thereby enabling the normal discharge of the bulk, As the pipe is prevented from clogging, the risk of explosion of the bulk conveying pipe is reduced, and the pneumatic device (air injection device) is not burdened, and a separate bulk removal line is installed to remove the clogged part of the bulk conveying pipe There is an effect that does not need to be done.

1 is a cross-sectional view showing a conventional spider nozzle type bulk conveying apparatus in a middle- or large-sized bulk tank
Fig. 2 is a cross-sectional view showing a conventional canvas type bulk conveying apparatus in a medium-
Fig. 3 shows a bulk transfer apparatus according to the present invention,
Figure 4 shows a bulk transfer device of the present invention,
5 is a perspective view showing the air injection by the upper and lower nozzles in the bulk transfer apparatus of the present invention.
6 is a plan view showing the air injection by the upper nozzle and the lower nozzle in the bulk transfer apparatus of the present invention.
Figure 7 is a perspective view of a flat fan nozzle;

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a bulk transfer apparatus and method of the present invention will be described in detail with reference to the accompanying drawings.

As described above, large-sized high-pressure type bulk tanks have a disadvantage in that the bulk of the large-capacity high-pressure bulk tanks are hardly fluidized at first because of bulking due to bulk self-loading, and the pressure loss in the bulk tank is considerably large even if fluidized. The bulk conveying apparatus of the present invention takes into account both of the two characteristics, so that the shape of the nozzle having high efficiency even in a large-sized high-pressure tank and the small-sized low-pressure tank .

FIG. 3 is a view showing a bulk transfer device of the present invention, showing a formation of a fissile region, FIG. 4 is a view showing a bulk transfer device of the present invention, 6 is a plan view showing air injection by the upper nozzle and the lower nozzle in the bulk transfer apparatus of the present invention, and Fig. 7 is a plan view showing a flat fan nozzle.

3 to 6, the bulk transfer apparatus 100 of the present invention includes an air injection pipe 110 installed at an inner lower portion of the bulk tank 3 for injecting air into the bulk tank 3, ; An upper nozzle group 120 installed at the upper end of the air injection pipe 110 for splitting the bulk in the bulk tank 3 into plural pieces and mixing the plural pieces of the bulk in a primary way; A lower nozzle group 130 installed at a lower end of the air injection pipe 110 so as to mix the primary mixed particles by the upper nozzle group 120 in a second order; And a bulk conveyance pipe 3a formed at the bottom of the bulk tank 3 for discharging the bulk fluidized by the lower nozzle group 130 to the outside of the bulk tank 3.

The air injection pipe 110 includes a first air injection pipe 111 installed horizontally in an inner lower portion of the bulk tank 3 and having an upper nozzle group 120 installed therein; And a second air injection pipe 113 horizontally installed in an inner lower portion of the bulk tank 3 and crossing the first air injection pipe 111 in a cross shape and provided with a lower nozzle group 130 .

Both ends of the first air injection pipe 111 and the second air injection pipe 113 are exposed to the outside of the bulk tank 3 and a pneumatic device (air injection device) do. The pneumatic device can inject air into the first air injection pipe 111 and the second air injection pipe 113 at predetermined pressures.

The upper nozzle 121 provided at both ends of the first air injection pipe 111 or the second air injection pipe 113 in the upper nozzle group 120 injects air toward the inner wall surface of the bulk tank 3 It can be installed inclinedly.

As shown in FIG. 7, the upper nozzle group 120 and the lower nozzle group 130 may be configured as flat fan nozzles. A flat fan nozzle is characterized in that the tip of the nozzle is flat and the air is thinly and widely sprayed.

In the meantime, in the bulk transfer method of the present invention, air injection pipes 110 (111, 111) are installed in the inner lower part of the bulk tank 3 for injecting air into the bulk tank 3, A method of conveying a bulk of a bulk tank (3) in a bulk tank provided with a bulk conveyance pipe (3a) for discharging a fluidized bulk, characterized in that a top nozzle group (120) is provided at an upper end of an air injection pipe (110, 111, 113) And the lower nozzle group 120 is installed at the lower end of the air injection pipes 110 and 111. The air is blown upward through the upper nozzle group 120 to divide the bulk in the bulk tank 3 into several pieces , The cleaved bulk is firstly mixed, and the air is injected downward through the lower nozzle group 130 to be mixed in a second order to fluidize the bulk, and then discharged through the bulk transfer pipe (3a) to the outside of the bulk tank (3).

Air injected into the bulk tank 3 through the upper nozzle group 120 is injected upward inward into the bulk tank 3 to form a splitting area primarily inside the bulk tank 3, By injecting the air injected into the bulk tank 3 through the group 130 into the lower side of the bulk tank 3 to form a fluidizing area inside the bulk tank 3 and then discharging the bulk, The efficiency can be improved.

In other words, a splitting area is formed at the upper part of the inside of the bulk tank to divide the bulk into several pieces, and air is blown downward through the lower nozzle group installed downward in the bulk tank, the bulk in the bulk tank is prevented from clumping with each other, thereby preventing a phenomenon of clogging in the bulk conveyance pipe. Accordingly, the normal discharge of the bulk is possible, and in particular, As the pipe is prevented from clogging, the risk of explosion of the bulk conveying pipe is reduced, and the pneumatic device (air injection device) is not burdened, and a separate bulk removal line is installed to remove the clogged part of the bulk conveying pipe There is an effect that does not need to be done.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Will be clear to those who have knowledge of. For example, in the description of the present invention, the air injection pipe 110 is not limited to the first air injection pipe 111 and the second air injection pipe 113, Not only can pipes be added, but each air injection pipe can also be installed in parallel without crossing in a cross shape.

The upper nozzle group and the lower nozzle group are not limited to the numbers shown in the drawings, and may be added or subtracted in accordance with the bulk type and the bulk tank design conditions.

100: Bulk feed device
110: air injection pipe
111: first air injection pipe
113: second air injection pipe
120: upper nozzle group
121: upper nozzle
130: lower nozzle group

Claims (6)

An air injection pipe installed at an inner lower portion of the bulk tank for injecting air into the bulk tank;
An upper nozzle group installed at the upper end of the air injection pipe for splitting the bulk in the bulk tank into plural pieces and mixing the bulk of the primary particles;
A lower nozzle group installed at a lower end of the air injection pipe so as to mix the primary mixed by the upper nozzle group in a second order; And
A bulk conveyance pipe formed at a lower portion of the bulk tank for discharging the bulk fluidized by the lower nozzle group to the outside of the bulk tank; . ≪ / RTI > The method according to claim 1,
The air injection pipe
A first air inlet pipe horizontally installed in an inner lower portion of the bulk tank, the first air inlet pipe being installed with the upper nozzle group; And
A second air injection pipe horizontally installed in an inner lower portion of the bulk tank and formed in a cross shape with the first air injection pipe in a cross shape, And a conveying device for conveying the bulk material. The method according to claim 1,
Wherein the upper nozzles provided at both ends of the air injection pipe in the upper nozzle group are inclined to inject air toward the inner wall surface of the bulk tank. The method according to claim 1,
Wherein the upper nozzle group and the lower nozzle group comprise flat fan nozzles. An air injection pipe is provided in an inner lower portion of the bulk tank for injecting air into the bulk tank. In a bulk tank provided with a bulk transfer pipe for discharging the fluidized bulk in the lower portion of the bulk tank, The method comprising:
An upper nozzle group is installed at an upper end of the air injection pipe, and a lower nozzle group is installed at a lower end of the air injection pipe,
Air is blown upward through the upper nozzle group to divide the bulk in the bulk tank into several pieces, and the divided bulk is mixed first, the air is injected downward through the lower nozzle group, and the mixture is mixed in a second order, And then discharged through the bulk transfer pipe to the outside of the bulk tank. The method of claim 5,
Jetting air upward through the upper nozzle group to form a splitting area inside the bulk tank,
And injecting air upward through the lower nozzle group to form a fluidizing area within the bulk tank.

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