KR20150104416A - Bucket for continuous ship unloader - Google Patents

Abstract

A bucket for a continuous ship unloader is disclosed. According to an embodiment of the present invention, the bucket for a continuous ship unloader is made up by front, rear, left, and right sides around the bottom to allow the transfer of a bulk cargo. The bottom of the bucket is inclined upward to the front side.

Description

Bucket for continuous ship unloader

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a bucket used for transporting bulk cargo, and more particularly, to a continuous type cargo bucket bucket which improves the problems caused by unloading bulk cargo through a bucket.

In general, a continuous type unloading unit is a device used to transport bulk cargo (coal, grain, cement, minerals) transported through a ship, where a continuous cargo handling unit is placed on a ship docked in the harbor.

1, a conventional continuous unloading machine 10 includes a plurality of buckets 50 conveyed along a conveyor chain 3, the conveyor chain 3 being wound on a sprocket wheel 6 When the sprocket wheel 6 is rotated at a predetermined speed, the bulk cargo contained in the plurality of buckets 50 is sequentially transferred and dropped toward the reservoir 5 in the state shown in the figure.

The bucket 50 is rotated so that the bulk cargo falls down from the peak position A corresponding to the highest position of the continuous freight handler toward the reservoir 5. Since the bottom plate 51 is horizontally extended, A large amount of bulk cargo was dropped by the bottom plate of another bucket and returned to the ship.

The bottom plate 51 is horizontally extended when the residual bulk cargo contained in the bucket 50 is dropped at the position B so that the bulk cargo can not fall into the reservoir 5 and is partially accumulated in the bottom plate 51 This phenomenon has caused the dropping of the flame into the conveyor chain 3, resulting in abrasion, resulting in lowering of the durability and the service life of the continuous unloading machine 10.

In addition, in a state where a large amount of bulk cargo is contained in the bucket 50, an empty space (dead zone) where bulk cargo can not be loaded on the upper side of the rear plate 53 is generated and the cargo efficiency is lowered.

The first hinge portion 54 connected to the conveyor chain 3 is formed on the lower surface of the bottom plate 51. In this case, the thickness of the bottom plate 51 is relatively thin, Or a crack is generated. The second hinge portion 55 is formed on the upper side of the rear plate 53. In this case, the connecting distance between the second hinge portion 55 and the conveyor chain 3 is increased and the moment due to the rotation of the bucket 50 The load is increased and cracks and breakage may occur at the position of the second hinge part 55. [

Korean Patent Publication No. 10-2008-0054283 (Published on May 04, 2011)

Embodiments of the present invention provide a continuous bucket for a cargo handler capable of minimizing flame generated when a bulk cargo is transported through a plurality of buckets installed in a continuous cargo handling unit.

According to an aspect of the present invention, there is provided a bucket having a front portion, a rear portion, and a left portion and a right portion on the basis of a bottom portion to which bulk cargo is transferred, wherein the bucket is inclined upward toward the front portion.

The bucket includes a guide portion fixed along an upper outer side of the front portion and left and right side portions, and the guide portion further includes an inclined portion inclined outwardly from the front portion and the left and right side portions.

The bucket includes a support member positioned between the front portion and the rear portion and having both ends fixed to the support bracket.

Wherein the support bracket includes a first fixing bracket positioned on the front portion and a second fixing bracket positioned on the rear portion,

The first fixing bracket is formed with a first insertion groove into which a front end portion of the supporting member is partially inserted, and the second fixing bracket has a second insertion groove into which a rear end portion of the supporting member is inserted.

The first fixing bracket surrounds the outer surface of the front portion and is closely fixed thereto.

The bucket further includes a connecting plate that is inclined upward from the bottom toward the front portion and the left and right side portions.

The bucket is characterized in that a round portion is formed between the bottom portion and the rear portion.

And the front part is inclined toward the front side.

And the rear portion is inclined toward the rear outer side.

The bucket further includes a guide portion extending upward from a rear portion and a portion of the left and right side portions so as to guide the falling direction of the bulk cargo.

Wherein the bucket includes a chain connecting portion connected to a conveyor chain of a continuous unloading unit, the chain connecting portion includes first and second hinge portions formed on a lower side and an upper side of a rear portion, respectively; And a plurality of support plates connecting the first and second hinge parts.

The first hinge part is positioned toward the lower side of the rear part, and the second hinge part is positioned perpendicular to the rear part.

The chain connecting portion is provided with a reinforcing member for reinforcing the strength of the first and second hinge portions and the support plate.

A bucket for a continuous unloading machine according to another embodiment of the present invention includes a bucket which is composed of front and rear portions and left and right side portions with respect to a bottom portion and through which bulk cargo is conveyed, wherein the bucket is inclined upward toward the front portion, And an anti-sticking portion that is resiliently biased by the elastic portion along the inner edge of the portion is provided.

Wherein the adhesion preventing portion includes a fixing plate whose one end is fixed to an inner edge of the bottom portion; And a rotating plate rotatably positioned toward an upper portion of the fixing plate via a hinge provided in the longitudinal direction of the fixing plate.

The elastic portion is characterized in that either a coil spring or a leaf spring is selectively used.

The bucket includes a first guide portion fixed along an upper outer side of the front portion and left and right side portions, and the first guide portion further includes an inclined portion inclined to the outside of the front portion and the left and right side portions.

The bucket includes a support member positioned between the front portion and the rear portion and having both ends fixed to the support bracket.

The support bracket includes a first fixing bracket positioned at the front portion and a second fixing bracket positioned at the rear portion.

The bucket is characterized in that a round portion is formed between the bottom portion and the rear portion.

And the front part is inclined toward the front side.

And the rear portion is inclined toward the rear outer side.

The bucket further includes a rear portion and a second guide portion extending upward from a portion of the left and right side portions in order to guide the falling direction of the bulk cargo.

Embodiments of the present invention are directed to minimizing the amount of cargo generated when conveying bulk cargo through a continuous cargo handling unit, thereby improving the unloading efficiency of the continuous cargo handling unit and preventing the occurrence of malfunction due to wear of the sprocket wheel, do.

Embodiments of the present invention can enhance the structural strength of the bucket to prevent a large amount of bulk cargo from being damaged during transportation, thereby minimizing the cost incurred in replacing the bucket and making it possible to use for a long period of time.

Embodiments of the present invention can increase the speed of operation by loading larger amounts of bulk cargo per bucket.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a bucket installed in a conventional continuous unloading machine. Fig.
2 is a perspective view of a continuous bucket for a cargo handler according to an embodiment of the present invention;
3 is a plan view of a bucket for a continuous cargo handling machine according to an embodiment of the present invention.
4 is a longitudinal sectional view of a bucket for a continuous cargo handling machine according to an embodiment of the present invention;
5 is a perspective view of a continuous bucket for a cargo handler according to another embodiment of the present invention.
Figure 6 is an operational view of a bucket for a continuous cargo handler according to one embodiment of the present invention.
7 is an operational view of a bucket for a continuous cargo handler according to another embodiment of the present invention.

The construction of a bucket for a continuous cargo handling machine according to an embodiment of the present invention will be described with reference to the drawings.

2 to 4, the continuous type unloader bucket 1 is installed at a constant interval along the conveyor chain 3 of the continuous unloading unit 10 and is provided at the bottom portion 110 and the left and right side portions 140 and 150. The bottom portion 110 is inclined upward toward the front portion 120. The front and rear portions 120,

As a result, when the bulk cargo is unloaded in the continuous unloading unit 10, the bucket 1 is prevented from directly accumulating the bulk cargo unloaded to the bottom of the other bucket located in front of the continuous unloading unit 10, Can be improved and the bulk cargo can be unloaded more quickly.

The bottom portion 110 is inclined at an inclination angle of? 1 toward the front portion 120. The inclination angle is not specifically limited, but is inclined at an angle relatively smaller than a right angle.

The bucket 1 includes a front portion 120 and a first guide portion 160 fixed along the upper outer side of the left and right side portions 140 and 150. The first guide portion 160 includes a front portion 120, And an inclined portion 162 that is inclined outwardly of the left and right side portions 140 and 150.

The first guide part 160 is provided for facilitating the loading and unloading of a large amount of the bulk material contained in the bucket 1. The first guide part 160 is provided to be lowered from the left and right side parts 140 and 150 toward the rear part 130 By tilting, a large amount of bulk cargo can drop more easily from the left and right side portions 140 and 150 toward the front portion 120 when the bulk material is unloaded.

In addition, since the amount of cargo dropped in the outward direction of the left and right side portions 140 and 150 during unloading can be minimized, the generation of dust due to the charcoal can be prevented to improve the working environment and the carburizing chain 3 and the bucket 1 It is possible to prevent the occurrence of a failure of the conveyor chain 3 due to abrasion by falling to a minimum.

The inclined portion 162 is formed on the front portion 120 and the left and right side portions 140 and 150 excluding the rear portion 130 so that when the bulk cargo is unloaded downward, So that it can be prevented from interfering with the bottom 110 of another bucket located forward.

The bucket 1 is positioned such that the front portion 120 is tilted toward the front outward. In this case, when the bulk material is unloaded, the bucket 1 is moved more stably And is inclined at an inclination angle similar to the inclination angle of the inclined portion 162, so that the falling form of the falling bulk material can be guided.

The bucket according to the present embodiment is constructed as follows so as to minimize the attachment of the attached charcoal inside.

The rear portion 130 is inclined toward the rear outer side so that the amount of the attached charcoal adhering to the rear portion 130 is minimized relative to the extension of the rear portion 130 in the vertical direction, The remaining amount of adhered carbon remaining on the rear portion 130 is minimized.

The bucket 1 further includes a connecting plate 200 inclined upward from the bottom 110 toward the front portion 120 and the left and right side portions 140 and 150. The connecting plate 200 includes a front portion 120 And the left and right side portions 140 and 150 are connected to each other at a relatively large inclination angle? 2 rather than a right angle, thereby minimizing the adherence rate of the attached charcoal.

When the bulk cargo is unloaded through the bucket 1 in the state where the connection plate 200 is installed, the front part 120 is not connected at right angles to the bottom part 110, The bulk cargo extending toward the front portion 120 can be moved smoothly without being stagnated at a specific position when the bulk cargo is moved.

The bucket 1 has a round portion 300 formed between the bottom portion 110 and the rear portion 130. The round portion 300 is connected to the round portion 300 while the bulk cargo is unloaded together with the above- 300 can be minimized, and a large amount of bulk cargo can be stably moved.

The bucket 1 according to the present embodiment may further include a second guide portion 400 extending upward from at least a part of the rear portion 130 and the left and right side portions 140 and 150 to guide the falling direction of the bulk cargo .

The second guide part 400 is connected with the first guide part 160 described above so that the bucket 1 is conveyed at the highest position A at which the bucket 1 is the highest position of the continuous unloading machine 10 for stable unloading of the bulk cargo, Is rotated downwardly by the centrifugal force along the bottom wall (3) to guide the dropping angle of the bulk cargo, thereby preventing the bulk cargo from falling to the bottom portion (110) of another bucket located forward.

The second guide part 400 extends a predetermined length toward the upper outer side of the rear part 130 and extends a predetermined length toward the left and right side parts 140 and 150 so that when the bulk cargo is unloaded through the bucket 1 It is possible to minimize the drop-off to left or right. In addition, since the bulk cargo is unloaded by the other bucket located at the front side and the bulk cargo is unloaded stably toward the reservoir 5, the occurrence of unnecessary flame is minimized and the working efficiency is improved and the damage of the conveyor chain (3) It can be prevented in advance.

In order to reinforce the structural strength of the bucket according to an embodiment of the present invention, a support member 30 is installed inside the support member 30. The support member 30 is positioned between the front portion 120 and the rear portion 130, And is fixed to the support bracket 20. The support member 30 is installed to prevent the bucket 1 from being twisted or deformed when a large amount of bulk cargo is received through the bucket 1, and is maintained in a horizontally fixed state spaced apart from each other.

The support bracket 20 is stably fixed to the bucket 1 by the first fixing bracket 22 positioned at the front portion 120 and the second fixing bracket 24 positioned at the rear portion, The first and second fixing brackets 22 and 24 prevent the twisting or breakage of the support member 30 even when an external force is applied to the support member 30, thereby stably maintaining the structural strength of the bucket 1 even during long-term use.

The first fixing bracket 22 is formed with a first insertion groove 22a into which a distal end portion of the supporting member 30 is partially inserted and a rear end portion of the supporting member 30 is inserted into the second fixing bracket 24 The second insertion groove 24a is formed so that both ends of the support member 30 are stably coupled and the outer side of the first and second insertion slots 22a and 24a is fixed more stably Is maintained. The first and second insertion grooves 22a and 24a are formed in a U-shaped cross-section, but the present invention is not limited to the above-described shape and can be changed into other shapes.

For example, since the first fixing bracket 22 covers the outside of the front portion 120 and is tightly fixed, even when an external force is applied to the supporting member 30 while the bulk cargo is contained in the bucket 1, Strengthen the strength.

The bucket 1 according to the present embodiment includes a chain connecting portion 500 connected to the conveyor chain 3 of the continuous unloading machine 10 and the chain connecting portion 500 is disposed on the lower side and the upper side of the rear portion 130 And a plurality of support plates 510 connecting the first and second hinge parts 501 and 502 and the first and second hinge parts 501 and 502.

The first hinge portion 501 and the second hinge portion 502 are located at the rear portion 130 of the bucket and are fixed to the conveyor chain 3 rotatably by a link (not shown) or a pin (not shown) do. As the conveyor chain 3 rotates around the sprocket wheel 6 the bucket 1 which is seated in the conveyor chain 3 through the first hinge part 501 and the second hinge part 502, And is rotated at an angle corresponding to the rotation angle of the conveyor chain 3 or the tangent angle of the conveyor chain 3 with respect to the sprocket wheel 6. [

The bucket 1 rotates in a state where it is connected to the chain connecting part 500. The chain connecting part 500 is connected to the conveyor chain 3 which is rotated infinitely, In this embodiment, the first and second hinge portions 3 and 4 are moved and rotated in a state where the self load of the bucket 1 and the load of the bulk bag are added after the self load and a large amount of bulk cargo are contained. A plurality of the support plates 510 and the positions of the support plates 501 and 502 can be stably used in a state in which deformation and cracks due to concentrated loads are minimized.

The bucket 1 is made of steel with a bottom portion 110 and front and rear portions 120 and 130 and left and right side portions 140 and 150. The bottom portion 110 is relatively thick The first hinge part 501 is not positioned on the bottom part 110 but is positioned on the rear part 130 so that damage due to the concentrated load generated when the bucket 1 is rotated for unloading the bulk cargo So that it can be used stably even in long-term use.

For example, the first hinge part 501 according to the present embodiment is installed in a direction inclined at 45 degrees with respect to the rear part 130, so that concentration of load on the bottom part 110 is avoided, 130 so that breakage due to load concentration is prevented even when the conveyor chain 3 moves and rotates.

The second hinge portion 502 is installed perpendicularly to the rear portion 130 and is disposed rearward. When the second hinge portion 502 is installed as described above, the connection distance to be connected to the conveyor chain 3 is relatively short, The load applied to the rear portion 130 is reduced. Therefore, even when the bucket 1 is moved and rotated along the conveyor chain 3, breakage due to load concentration is prevented.

The first and second hinge parts 501 and 502 are spaced apart from each other with a predetermined distance therebetween and connected to the support plate 510. In this embodiment, since the support plate 510 is composed of a plurality of support plates, And damage can be prevented.

The chain connecting portion 500 is provided with a reinforcing member 503 for reinforcing the strength of the first and second hinge portions 501 and 502 and the support plate 510. The reinforcing member 503 is moved and rotated along the conveyor belt 3, A part of the concentrated stress concentrated on the first and second hinge parts 501 and 502 is received and dispersed to prevent cracks and damage. Therefore, even if the bucket 1 is used for a long period of time, Can be prevented.

A bucket for a continuous cargo handler according to another embodiment of the present invention will be described with reference to the drawings. The bucket for continuous cargo handling according to the present embodiment is provided with an anti-sticking portion to minimize the adhered to the inner side of the bucket in the process of unloading a large amount of bulk cargo to the bucket, .

Referring to FIG. 5, the continuous type unloading bucket 1a is installed at a predetermined interval along the conveyor chain 3 of the continuous unloading unit 10 and includes a bottom portion 110 for conveying the bulk cargo The bottom part 110 is inclined upward toward the front part 120 and the elastic part 120 is inclined upward along the inner edge of the bottom part 110. [ (600) which is sandwiched by the mounting portion (40).

The fixing portion 610 includes a fixing plate 610 whose one end is fixed to the inner edge of the bottom portion 110 and a fixing plate 610 which is fixed to the fixing plate 610 via a hinge 2 provided in the longitudinal direction of the fixing plate 610. [ And a rotary plate 620 rotatably positioned toward the upper portion.

When the bulk cargo is dropped outward from the bucket 1a, the adhering bullet preventing portion 600 minimizes the adhering burr generated at the corner of the bottom portion 110 or the bottom portion 110, And to unload large quantities of bulk cargo to the store 5 more quickly.

That is, when the rotating plate 620 is positioned at the corner of the bottom 110 and the attached carbon is generated on the upper surface of the rotating plate 620, the attached carbon is shaken outward by the rotation of the rotating plate 620 do.

In the attached-bullet-proof prevention part 600, the rotary plate 620 is rotated at a predetermined angle from the fixed plate 610 via the hinge 2. When a large amount of bulk cargo is contained in the bucket 1, When the bucket 1 is rotated at the highest point A of the continuous unloading unit 1, the rotary plate 620 compresses the elastic part 40 by the load to keep the state in close contact with the fixing plate 610, The bulkhead 620 is rotated about the hinge 2 by the elastic restoring force of the elastic portion 40 from the fixed plate 610 and is turned outward so that the bulk cargo attached to the rotary plate 620 is directed toward the reservoir 5 It is possible to drop it.

The rotary plate 620 is spaced apart from the fixing plate 610 by the elastic portion 40 and is rotated within a predetermined angle about the hinge 2 so that the rotary plate 620 is separated from the fixing plate 610 together with the rotation of the bucket 1 The attached gun attached to the rotating plate 620 can be dropped into the reservoir 5 by the impact generated while being rotated.

The elastic portion 40 may be formed of a coil spring or a leaf spring. In this embodiment, a coil spring is provided. However, another spring having a similar function may be used.

The bucket 1 is inclined upwardly toward the front part 120 and slopes toward the front part 120 at an inclination angle of? 1 for stable loading and unloading of the bulk cargo along with the mounting anti- The inclination angle is not specifically limited, but is inclined at an angle relatively smaller than a perpendicular angle.

As a result, when the bulk cargo is unloaded in the continuous type unloading unit 10, the bulk cargo unloaded to the bottom portion of the other bucket located forward can be prevented from being directly interfered with, so that the unloading efficiency of the continuous type unloading unit 10 is improved A large amount of bulk cargo can be unloaded more quickly.

The bucket 1 includes a front portion 120 and a first guide portion 160 fixed along the upper outer side of the left and right side portions 140 and 150. The first guide portion 160 includes a front portion 120, And an inclined portion 162 that is inclined outwardly of the left and right side portions 140 and 150.

The first guide part 160 is provided for facilitating the loading and unloading of a large amount of the bulk material contained in the bucket 1. The first guide part 160 is provided to be lowered from the left and right side parts 140 and 150 toward the rear part 130 A large amount of bulk cargo can be more easily dropped from the left and right side portions 140 and 150 toward the front portion 120 when the bulk material is unloaded. Further, since the amount of cargo to the outside of the left and right side portions 140 and 150 can be minimized during unloading, the occurrence of dust due to the charcoal can be minimized and the working environment can be improved and the carburizing around the conveyor chain 3 and the bucket 1 can be minimized So that the occurrence of abrasion can be prevented.

The inclined portion 162 is formed on the front portion 120 and the left and right side portions 140 and 150 excluding the rear portion 130 so that when the bulk cargo is unloaded downward, So that it can be prevented from interfering with the bottom 110 of another bucket located forward.

The bucket 1 is positioned such that the front portion 120 is tilted toward the front outward. In this case, when the bulk material is unloaded, the bucket 1 is moved more stably And is inclined at an inclination angle similar to the inclination angle of the inclined portion 162, so that the falling form of the falling bulk material can be guided.

The bucket according to the present embodiment is constructed as follows so as to minimize the attachment of the attached charcoal inside.

The rear portion 130 is inclined toward the rear outer side so that the amount of the attached charcoal adhering to the rear portion 130 is minimized relative to the extension of the rear portion 130 in the vertical direction, The remaining amount of adhered carbon remaining on the rear portion 130 is minimized.

The bucket 1 has a round portion 300 formed between the bottom portion 110 and the rear portion 130. The round portion 300 is connected to the round portion 300 while the bulk cargo is unloaded together with the above- 300 can be minimized, and a large amount of bulk cargo can be stably moved.

The bucket 1 according to the present embodiment further includes a second guide portion 400 extending upward from a portion of the rear portion 130 and the left and right side portions 140 and 150 to guide the falling direction of the bulk cargo do.

The second guide part 400 is connected with the first guide part 160 described above so that the bucket 1 is conveyed at the highest position A at which the bucket 1 is the highest position of the continuous unloading machine 10 for stable unloading of the bulk cargo, Is rotated downwardly by the centrifugal force along the bottom wall 3 to guide the dropping angle of the bulk cargo and prevent it from dropping to the bottom portion 110 of another bucket located forward.

The second guide part 400 extends a predetermined length toward the upper outer side of the rear part 130 and extends a predetermined length toward the left and right side parts 140 and 150 so that when the bulk cargo is unloaded through the bucket 1 Since the cargo falling down to the left or the right can be minimized, the bulk cargo is not unloaded to another bucket located forward, and the bulk cargo is stabilized toward the reservoir 5, thereby minimizing the occurrence of unnecessary flames and improving the working efficiency It is possible to prevent the conveyor chain 3 from being damaged due to the fire.

In order to reinforce the structural strength of the bucket according to an embodiment of the present invention, a support member 30 is installed inside the support member 30. The support member 30 is positioned between the front portion 120 and the rear portion 130, And is fixed to the support bracket 20. The support member 30 is installed to prevent the bucket 1 from being twisted or deformed when a large amount of bulk cargo is received through the bucket 1, and is maintained in a horizontally fixed state spaced apart from each other.

The support bracket 20 is stably fixed to the bucket 1 by the first fixing bracket 22 positioned at the front portion 120 and the second fixing bracket 24 positioned at the rear portion, The first and second fixing brackets 22 and 24 prevent the twisting or breakage of the support member 30 even when an external force is applied to the support member 30, thereby stably maintaining the structural strength of the bucket 1 even during long-term use.

The first fixing bracket 22 is formed with a first insertion groove 22a into which a distal end portion of the supporting member 30 is partially inserted and a rear end portion of the supporting member 30 is inserted into the second fixing bracket 24 The second insertion groove 24a is formed so that both ends of the support member 30 are stably coupled and the outer side of the first and second insertion slots 22a and 24a is fixed more stably Is maintained. The first and second insertion grooves 22a and 24a are formed in a U-shaped cross-section, but the present invention is not limited to the above-described shape and can be changed into other shapes.

For example, since the first fixing bracket 22 covers the outside of the front portion 120 and is tightly fixed, even when an external force is applied to the supporting member 30 while the bulk cargo is contained in the bucket 1, Strengthen the strength.

The state of use of the bucket for a continuous unloading machine according to an embodiment of the present invention will be described with reference to the drawings.

4 or 6, the bucket 1 is moved along the conveyor chain 3 in a state where a large amount of bulk cargo is contained in the bucket 1, at a peak position A (corresponding to the highest position of the continuous cargo handler 1) , A large amount of bulk cargo contained in the bucket 1 is unloaded downward as the rotation angle of the bucket 1 increases.

Since the bucket 1 is inclined at a predetermined inclination angle, the centrifugal force generated when the bucket 1 is rotated and the centrifugal force generated by the first and second guide portions 160 and 400, The bulk cargo remains in the bottom portion of the other bucket located forward and falls down stably toward the reservoir 5 without being directly interfered with.

The bulk cargo is dropped via the inclined bottom portion 110 and the connecting plate 200 when the bulk cargo is dropped from the bucket 1 to the reservoir 5 so that the bottom portion of the conveyor chain 3 or the other bucket 110 of the conveyor chain 3 is minimized, the cargo efficiency is reduced or the flame does not fall down to the conveyor chain 3, so that the lifetime of the conveyor chain 3 is not reduced.

The bucket 1 is designed such that the amount of remaining bulk cargo stacked or dropped on the bottom portion 110 is minimized by the inclined bottom portion 110 of the other bucket positioned forwardly while the remaining bulk cargo contained therein is dropped at the B position So that the unloading efficiency and lifetime of the bucket 1 are improved.

A state of use of the bucket for a continuous unloading machine according to another embodiment of the present invention will be described with reference to the drawings.

5 or 7, the bucket 1 is moved along the conveyor chain 3 in a state where a large amount of bulk cargo is contained in the bucket 1, at a peak position A (corresponding to the highest position of the continuous cargo handler 1) , A large amount of bulk cargo contained in the bucket 1 is unloaded downward as the rotation angle of the bucket 1 increases.

Since the bucket 1 is inclined at a predetermined inclination angle, the centrifugal force generated when the bucket 1 is rotated and the centrifugal force generated by the first and second guide portions 160 and 400, The bulk cargo remains in the bottom portion of the other bucket located forward and falls down stably toward the reservoir 5 without being directly interfered with.

The bulk cargo is dropped via the inclined bottom portion 110 and the connecting plate 200 when the bulk cargo is dropped from the bucket 1 to the reservoir 5 so that the bottom portion of the conveyor chain 3 or the other bucket 110 of the conveyor chain 3 is minimized, the cargo efficiency is reduced or the flame does not fall down to the conveyor chain 3, so that the lifetime of the conveyor chain 3 is not reduced.

The bucket 1 can be partially attached to the upper surface of the rotary plate 620 located at the rim of the bottom portion 110 while a large amount of bulk cargo falls down at the A position, When the load is rotated to unload the cargo, the bulk cargo compressed by the elastic portion 40 is unloaded and momentarily depressing the rotating plate 620 is released, and the rotating plate 620 is rotated by the elastic restoring force of the elastic portion 40, The buckets 1 are rotated toward the outside by the vibrations generated in the rotary plate 620 in which the attached bolts attached to the rotary plate 620 are positioned, The adhesion amount is minimized.

Therefore, since the amount of adhered carbon adhered to the continuous type unloading unit 10 composed of a plurality of buckets 1 is minimized, the efficiency is increased and the conveyor chain 3 is prevented from being abraded due to the fire fighting, thereby improving the durability and extending the service life even in long- .

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 of the invention as set forth in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

1: Bucket
20: support bracket
30: Support member
40:
22, 24: first and second fixing brackets
22a, 24a: first and second insertion grooves
110:
120, 130: front and rear
140, 150: left and right side portions
160: first guide portion
162:
200: connection plate
300: round section
400: second guide portion
500: Chain connection
501, 502: first and second hinge portions
503: Stiffener
510: Support plate
600:
610: Fixing plate
620: Spindle

Claims (24)

A bucket for conveying bulk cargo comprising front and rear portions and left and right side portions with respect to a bottom portion,
The bucket
Wherein the bottom portion is inclined upward toward the front portion. The method according to claim 1,
The bucket
And a guide portion fixed along an upper outer side of the front portion, the left and right side portions, and / or the rear portion,
The guide portion
Further comprising an inclined portion inclined outwardly of the front portion, the left and right side portions, and / or the rear portion. The method according to claim 1,
The bucket
And a support member positioned between the front and rear portions and having opposite ends fixed to the support brackets. The method of claim 3,
The support bracket
A first stationary bracket positioned in the front portion and a second stationary bracket positioned in the rear portion of the bucket. The method according to any one of claims 3 and 4,
Wherein the first fixing bracket
Wherein a first insertion groove into which a distal end portion of the support member is partially inserted is formed and a second insertion groove into which a rear end portion of the support member is inserted is formed in the second fixing bracket. 5. The method of claim 4,
Wherein the first fixing bracket
Wherein the buckets are tightly fixed to each other while covering the outside of the front part. The method according to claim 1,
The bucket
And a connecting plate inclined upward from the bottom toward the front and left and right side portions. The method according to claim 1,
The bucket
And a round portion is formed between the bottom portion and the rear portion of the bucket. The method according to claim 1,
The front-
Wherein the bucket is inclined toward the front outside. The method according to claim 1,
The rear portion
Wherein the buckets are inclined toward the rear outer side. The method according to claim 1,
The bucket
Further comprising a guide portion extending upward from a rear portion and a portion of the left and right side portions to guide the falling direction of the bulk cargo. The method according to claim 1,
The bucket
And a chain connecting portion connected to the conveyor chain of the continuous freight unloader,
The chain connecting portion
First and second hinge portions formed on the lower side and the upper side of the rear portion, respectively;
And a plurality of support plates connecting between the first and second hinge parts. 13. The method of claim 12,
Wherein the first hinge portion is positioned toward the lower side of the rear portion and the second hinge portion is positioned perpendicularly to the rear portion of the bucket. 13. The method of claim 12,
The chain connecting portion
And a reinforcing member for reinforcing the strength of the first and second hinge portions and the support plate is provided. And a bucket in which the bulk cargo is conveyed, the bucket being composed of front and rear portions and left and right side portions based on the bottom portion,
The bucket
The bottom portion is inclined upward toward the front portion,
Wherein an anti-sticking portion is provided along the inner edge of the bottom portion and is resiliently biased by the elastic portion. 16. The method of claim 15,
The mounting-
A fixing plate having one end fixed to an inner edge of the bottom portion;
And a rotating plate rotatably positioned toward an upper portion of the fixing plate via a hinge provided in the longitudinal direction of the fixing plate. 17. The method of claim 16,
The elastic portion
Characterized in that either a coil spring or a leaf spring is selectively used. 16. The method of claim 15,
The bucket
And a first guide part fixed along the upper outer side of the front part and the left and right side parts,
The first guide portion
Further comprising an inclined portion inclined to the outside of the front portion and the left and right side portions. 16. The method of claim 15,
The bucket
And a support member positioned between the front and rear portions and having opposite ends fixed to the support brackets. 20. The method of claim 19,
The support bracket
A first stationary bracket positioned in the front portion and a second stationary bracket positioned in the rear portion of the bucket. 16. The method of claim 15,
The bucket
And a round portion is formed between the bottom portion and the rear portion of the bucket. 16. The method of claim 15,
The front-
Wherein the bucket is inclined toward the front outside. 16. The method of claim 15,
The rear portion
Wherein the buckets are inclined toward the rear outer side. 16. The method of claim 15,
The bucket
Further comprising a second guide portion extending upward from at least a portion of the rear portion and the left and right side portions to guide the falling direction of the bulk cargo.

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