KR101251226B1 - Dust collecting device for shipunloader - Google Patents

Abstract

The present invention is coupled to the bottom of the chute is installed to extend downward, the extension pipe for guiding the downward transport of the powder cargo falling through the chute, spaced apart below the extension pipe to receive the powder cargo from the extension pipe, the lower end from the extension pipe Internal discharge pipe is provided with tapered main discharge port so that the inflowed powder is discharged in a compressed state without being scattered. The upper end is connected to the lower end of the extension pipe, and the external discharge pipe is connected and supported in an extrapolated state so that the inner discharge pipe is spaced inside. External discharge pipe is provided with tapered auxiliary discharge port so that powder flowing over the top of discharge pipe is discharged without being scattered, installed on top of external discharge pipe inclined downward toward internal discharge pipe, and discharged from extension pipe. The inflow of the ring shape to guide the internal discharge pipe It provides handling dust scattering prevention device comprising a deupan.
In this way, the dust scattering prevention device for unloading, the powder cargo drop-transferred through the conveyor belt is first discharged in a compressed state through the inner discharge pipe having a main outlet tapered at the bottom, and the powder cargo flowing from the inner discharge pipe at the bottom The secondary discharge in a compressed state through the external discharge pipe having a tapered auxiliary discharge port, it is possible to suppress the scattering of the unloaded powder cargo.

Description

Dust collecting device for unloading {Dust collecting device for shipunloader}

The present invention relates to a dust scattering device for loading and unloading, and more particularly, to a dust scattering device for loading and unloading to prevent dust from being scattered during the process of unloading the main body cargo in a transport means such as a ship.

In general, the powdered cargo which is unloaded from a conveying means such as a ship is conveyed through a belt conveyor. The powdered cargo transferred to the belt conveyor may be loaded directly into the vehicle through a chute or stored in a hopper.

Here, the chute is a facility for inducing powder cargo falling from the belt conveyor is installed on the exit side of the belt conveyor.

However, since the powdered material conveyed through the belt conveyor is conventionally dropped with a drop of a predetermined distance through the chute, the powdered powder is scattered in the falling process.

An object of the present invention is to provide an apparatus for preventing dust scattering for loading and unloading to minimize dust generation in the process of drop loading powdered cargo through a belt conveyor.

The present invention provides a dust scattering prevention device for unloading, in which dust is prevented from occurring when the powdered cargo is unloaded in a falling state through a chute of a conveyor belt, and is installed to extend downward at the lower end of the chute. Extension pipes for guiding downward transport of the powdered cargo falling through and spaced apart below the extension pipes so as to receive the powdered cargo from the extension pipes, the lower portion of the powdered cargo flows from the extension pipes in a compressed state without being scattered The inner discharge pipe is provided with a tapered main outlet to be discharged, and the upper end is connected to the lower end of the extension pipe, and connected and supported in an extrapolated state so that the inner discharge pipe is spaced apart from the inside, and the lower end flows through the upper end of the inner discharge pipe. Tapered Jinbo so that the powdered product is discharged in a compressed state without being scattered An outer discharge pipe having a discharge port and a ring-shaped inflow guide plate installed at an upper end of the outer discharge pipe in a state inclined downward in the direction of the inner discharge pipe to guide the powder cargo discharged from the extension pipe to the internal discharge pipe; It provides a dust scattering prevention device for unloading.

In addition, the outer discharge pipe may be formed longer than the inner discharge pipe.

In addition, the interval between the upper inner circumferential surface of the outer discharge pipe and the upper outer circumferential surface of the inner discharge pipe may be equal to the interval between the auxiliary discharge port inner circumferential surface of the outer discharge pipe and the main discharge port outer circumferential surface of the inner discharge pipe.

In addition, the auxiliary discharge port of the external discharge pipe and the main discharge port of the internal discharge pipe may be tapered at the same angle, and the auxiliary discharge port and the main discharge port may be tapered at 44 degrees to 46 degrees.

In addition, the inner diameter of the auxiliary outlet lower edge of the outer discharge pipe may be formed larger than the inner diameter of the lower edge of the main discharge port of the inner discharge pipe.

In addition, the lower end of the outer discharge pipe, further provided with a cylindrical shielding case opened downward, the shielding case is provided with a dust collector connected to the suction to remove the powder scattered from the inside, the inner discharge pipe And it can prevent the powdered cargo discharged through the external discharge pipe from scattering.

The dust scattering prevention device for unloading according to the present invention, the powdered cargo falling through the conveyor belt is first discharged in a compressed state through the inner discharge pipe having a main outlet tapered at the bottom, the powdered cargo flowing from the inner discharge pipe is lower Secondary discharged in a compressed state through the external discharge pipe having a secondary outlet in the tapered, it is possible to suppress the scattering of the unloaded powder cargo.

1 is a schematic cross-sectional view of the installation state of the dust scattering device for cargo handling according to an embodiment of the present invention.
2 is a partial perspective view of FIG. 1.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

Figure 1 is a schematic cross-sectional view of the installation state of the dust removal apparatus for unloading in accordance with an embodiment of the present invention, Figure 2 is a partial perspective view of FIG. 1 and 2, the dust scattering device for unloading, the conveyor belt 10 in the state provided with an extension pipe 100, the inner discharge pipe 200, the external discharge pipe 300, the inlet guide plate 400. While conveying through), it is suppressed that the powdered cargo unloaded in the falling state through the chute 20 installed on the exit side of the conveyor belt 10 is scattered.

The extension pipe 100 is a connection line for guiding the powder cargo falling from the conveyor belt 10 through the chute 20 to be discharged in a state adjacent to a position to be unloaded. That is, the upper end of the extension pipe 100 is coupled to the lower end so as to receive the powdered cargo from the chute 20, the lower end is disposed extending downward to face the position to be unloaded.

Here, the extension pipe 100 may be formed to increase the inner diameter from the upper end in the longitudinal direction to facilitate the downward transfer without clogging the powdered cargo. In this case, the extension pipe 100 may be connected in multiple stages using a plurality of pipe members so as to contract and expand at a predetermined interval in a link method.

The internal discharge pipe 200 is suppressed from scattering when the powdered cargo transported downward through the extension pipe 100 discharged. That is, the inner discharge pipe 200 receives the powdered cargo from the extension pipe 100 and then suppresses the powdered powder from being scattered while being discharged in a compressed state. Such, the inner discharge pipe 200 is disposed in the spaced apart below the extension pipe 100 so as to receive the powder discharged through the extension pipe 100 inside the outer discharge pipe 300 to be described later It is fixed to the installation.

In addition, a tapered main outlet 210 is formed at the lower end of the inner discharge pipe 200 to discharge the powdered cargo in a compressed state. As such, the main discharge port 210 tapered at the lower end of the internal discharge pipe 200 is formed, so that the powdered cargo introduced into the internal discharge pipe 200 becomes smaller in diameter, through the main discharge port 210. By being discharged in a compressed state, it is possible to suppress the scattering of the powdered product.

The outer discharge pipe 300 suppresses the powdered cargo flowing through the upper end of the inner discharge pipe 200 to be scattered during discharge and unloading. That is, the external discharge pipe 300 is discharged to the outside over the top while being accumulated in the internal discharge pipe 200 when the compressed discharge of the powder cargo through the tapered main discharge port 210 of the internal discharge pipe 200 The powdered product is prevented from being scattered while being discharged in a compressed state. This, the upper end of the external discharge pipe 300 is installed connected to the lower end of the extension pipe (100). In addition, the inner discharge pipe 300 is connected to the inner discharge pipe 200 in an extrapolated state so as to be spaced apart from each other. Here, reference numeral 301 denotes support legs for supporting the inner discharge pipe 200 so as to be spaced apart from the inside of the outer discharge pipe 300.

A tapered auxiliary outlet 310 is formed at the lower end of the outer discharge pipe 300 to discharge the powdered cargo flowing through the upper end of the inner discharge pipe 200 in a compressed state. As such, since the auxiliary discharge port 210 is tapered at the lower end of the external discharge pipe 300, the inner diameter of the powdered cargo introduced into the external discharge pipe 300 gradually increases in the same manner as the internal discharge pipe 200 described above. By being discharged in a compressed state through the auxiliary discharge port 310 is reduced, it is possible to suppress the scattering of the powdered product.

Here, the interval between the upper inner circumferential surface of the outer discharge pipe 300 and the upper outer circumferential surface of the inner discharge pipe 200 opposite thereto is the inner circumferential surface of the auxiliary discharge port 310 of the outer discharge pipe 300 and the inner discharge pipe opposite thereto ( It is formed to be equal to the interval between the outer peripheral surface of the main outlet 210 of 200. That is, referring to FIG. 1, the lengths of 'a' and 'b' are formed to be the same, and when the powdered cargo flowing out of the inner discharge pipe 200 is discharged through the external discharge pipe 300, it is in a constant flow state. The sliding conveyed bar can be discharged in a stable compressed state. As such, the lengths of the 'a' and the 'b' are formed to be tapered to the auxiliary discharge port 310 of the external discharge pipe 300 and the main discharge port 210 of the internal discharge pipe 200 at the same angle. do. At this time, the auxiliary discharge port 310 of the external discharge pipe 300 and the main discharge port 210 of the internal discharge pipe 200 are formed to be tapered at an angle of 44 degrees to 46 degrees, preferably tapered at an angle of 45 degrees do. In this case, when the taper angle is smaller than 44 degrees, the discharge velocity of the powdered cargo conveyed through the external discharge pipe 300 is too fast, so that the scattering of the powdered cargo is increased while being discharged in a state where a stable compressed state is not achieved. If the taper angle is greater than 46 degrees, the discharge velocity of the powdered cargo may be too slow to be discharged and a blockage may occur.

In addition, the outer discharge pipe 300 to surround the inner discharge pipe 200 to guide and stably discharge the powdered cargo flowing through the upper end of the inner discharge pipe 200, the inner discharge pipe 200 The length is formed longer.

In addition, the inner diameter of the auxiliary discharge port 310, the lower edge of the outer discharge pipe 300 is an end for discharging the powdered cargo, the lower end of the main discharge port 210, which is an end for discharging the powdered cargo of the inner discharge pipe 200 It is formed larger than the inner diameter of the rim. That is, referring to Figure 1, by forming a larger 'd' than 'c', even if the powder is discharged through the inner discharge pipe 200, the discharge of the powder through the outer discharge pipe 300 is obstructed It can be made stable without receiving.

The inflow guide plate 400 is a ring-shaped plate member that guides the powdered cargo discharged through the extension pipe 100 to the inner discharge pipe 200 without being introduced into the external discharge pipe 300. The inflow guide plate 400 is downward in the inner center direction, that is, the inner discharge pipe 200 direction so as to guide the powdered cargo discharged through the extension pipe 100 to be transferred to the internal discharge pipe 200. It is formed to be inclined. Here, the inlet guide plate 400 is installed coupled to the upper end of the outer discharge pipe 300 to be located between the lower portion of the extension pipe 100 and the upper portion of the external discharge pipe (300).

Here, the inner diameter of the inlet guide plate 400 is formed to be equal to or smaller than the inner diameter of the inner discharge pipe 200, the outer diameter is formed to be equal to or larger than the outer diameter of the outer discharge pipe 300, the extension pipe ( The powdered cargo discharged from 100 is not immediately discharged through the external discharge pipe 200, but flows into the internal discharge pipe 200 and then discharged.

In addition, a lower end of the outer discharge pipe 300 according to an embodiment, it may be provided with a further connecting the shielding case 500 of the tubular shape opened downward. The shielding case 500 serves to prevent the powdered cargo from spreading in a wide range when being discharged through the external discharge pipe 300. In addition, the screening case 500 may be provided with a dust collector 600 connected to the suction to remove the powdered matter scattered from the inside.

Referring to Figures 1 and 2 the operation of the dust handling apparatus for unloading dust according to an embodiment configured as described above are as follows.

First, when the powdered cargo transported through the conveyor belt 10 is dropped through the chute 20, the powdered cargo is supplied to the inner discharge pipe 200 by the inlet guide plate 400.

As such, the powdered material introduced into the inner discharge pipe 200 is discharged in a compressed state while passing through the main discharge port 210 tapered at a lower end thereof. At this time, the amount discharged through the main discharge port 210 is relatively small compared to the amount of the powder cargo flowing into the inner discharge pipe 200, the powder cargo continues to the internal discharge pipe 200 Stacked during input flows to the external discharge pipe (300).

The powdered cargo flowing from the inner discharge pipe 200 and flowing into the external discharge pipe also passes through the auxiliary discharge port 310 like the flow in the internal discharge pipe 200 as described above, so that secondary discharge is performed in a compressed state. do.

If the screening case 500 is installed, the powdered cargo is discharged through the main outlet 210 of the inner discharge pipe 200 and the auxiliary outlet 310 of the external discharge pipe 300. The dust scattered by the 500 can be further prevented from being discharged to the outside. In addition, the dust scattered through the dust collector 600 connected to the screening case 500 can be removed by suction.

As such, in the embodiment, the dust scattering preventing device for the unloading state is compressed through the inner discharge pipe 200 having the main discharge port 210 tapered at the lower end of the powder cargo transported through the conveyor belt 10. The powdered cargo is first discharged to the second, and the powdered cargo flowing from the inner discharge pipe 200 is secondary discharged in a compressed state through the outer discharge pipe 300 having a secondary discharge port 310 tapered at the bottom, the powdered cargo being unloaded It is possible to suppress the scattering of.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: conveyor belt 20: chute
100: extension pipe 200: internal discharge pipe
210: main discharge port 300: external discharge pipe
301: support 310: auxiliary outlet
400: inflow guide plate 500: blind case
600: dust collector

Claims (6)

In the unloading dust scattering device for unloading, which prevents dust from being generated when the cargo is unloaded in the drop state through the conveyor belt chute,
An extension tube coupled to the lower end of the chute so as to extend downward to guide downward transfer of the powdered cargo falling through the chute;
An inner discharge pipe disposed below the extension pipe so as to receive the powder cargo from the extension pipe, and having a tapered main discharge port at a lower end thereof so that the powdered cargo introduced from the extension pipe is discharged without being scattered;
The upper end is connected to the lower end of the extension pipe, and connected and supported in an extrapolated state so that the inner discharge pipe is disposed at an inner side, and the powder cargo flowing through the upper end of the inner discharge pipe is discharged in a compressed state without being scattered. An external discharge pipe provided with a tapered auxiliary discharge port; And
A ring-shaped inlet guide plate installed at an upper end of the outer discharge pipe in a state inclined downward toward the inner discharge pipe and guiding the powder cargo discharged from the extension pipe to be supplied to the internal discharge pipe;
The auxiliary discharge port of the external discharge pipe and the main discharge port of the internal discharge pipe are tapered at the same angle,
The auxiliary discharge port and the main discharge port dust scattering device for unloading tapered 44 to 46 degrees. The method according to claim 1,
The outer discharge pipe is unloading dust scattering prevention device formed longer than the inner discharge pipe. The method according to claim 1,
The interval between the upper inner circumferential surface of the outer discharge pipe and the upper outer circumferential surface of the inner discharge pipe is the same as the interval between the auxiliary discharge port inner circumferential surface of the outer discharge pipe and the main discharge port outer circumferential surface of the inner discharge pipe. delete The method according to claim 1 or 3,
The auxiliary discharge port lower edge inner diameter of the outer discharge pipe is larger than the inner discharge tube lower edge inner diameter of the unloading dust scattering prevention device. The method according to claim 1,
The lower end of the outer discharge pipe, further provided with a cylindrical cover case opened downwards,
The screening case is provided with a dust collector connected to suction and remove the powder scattered from the inside,
Dust scattering prevention device for unloading to prevent the powdered cargo discharged through the inner discharge pipe and the external discharge pipe from scattering.

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