KR20030058550A - A continuous unloader with low-head bucket elevator - Google Patents

Abstract

PURPOSE: A continuous loader is provided to reduce the size and the weight while maintaining an existing function. CONSTITUTION: A bucket elevator comprises a casing(30), a driving device(31), a bucket chain(32), an upper sprocket(33) and a foot(35). The casing is connected with the end of a boom to be rotatable. The driving device rotates the casing. The bucket chain is installed inside the casing. The upper sprocket drives the bucket chain by installing inside the casing. The foot contains two lower sprockets(34) by locating in the lower end of the casing. Thereby, the moving distance of freight is reduced by eliminating an upper portion of an existing bucket elevator, and the length of the boom is reduced by extending the reaching range of the foot. Moreover, the power consumption for the operation is reduced.

Description

A continuous unloader with low-head bucket elevator}

The present invention relates to a continuous unloading machine using a bucket elevator, and more particularly, to a bucket elevator used to unload various bulk cargo (coal, grain, cement, minerals, etc.) loaded on the ship to the dock The present invention relates to a device for transporting cargo by rotatably fixed to the boom of the unloader.

In general, a bucket (BUCKET) continuously attached to the elevator in order to unload the raw material cargo loaded on the vessel is transported to the outside of the vessel, the conventional configuration of such a continuous lifter of the bucket elevator type is shown in FIG. As shown in the figure, the raw material is excavated at the foot 11 portion of the bucket elevator 10, and then transferred to the top of the bucket elevator 10 to discharge the chute 12, the spiral chute 13, and the boom conveyor. 14, the boom conveyor discharge chute 15, the hopper 17, the gantry conveyor 18, and the gantry conveyor discharge chute 19 are unloaded to the wharf conveyor 20.

In this type of unloading machine, the bucket chain inside the bucket elevator 10 continuously moves by the sprocket to excavate the raw material cargo, and the foot 11 is rotated about the vertical direction or moved laterally. At the same time, all the raw materials loaded on the ship are transferred.

However, since the foot 11 needs to be turned, since the raw material cargo is dropped at an arbitrary position on the circumference at the top of the bucket elevator 10, in order to collect and transfer the raw material cargo to the boom conveyor 14 installed at the lower end, a spiral spiral The chute 13 is required.

However, in this type of unloading machine, since the raw material cargo cannot be transferred directly from the bucket elevator 10 to the boom conveyor 14 and must pass through the spiral chute 13, the upper part of the bucket elevator as shown in FIG. Although this was necessary, this part is a section in which the raw material cargo is actually raised up and lowered again through the spiral chute 13, so that the cargo transport path overlaps.

In addition, since the self-weight of the unloading machine is increased, there is a problem that the use of power for operating the equipment is increased and inefficient, and the cost of constructing the wharf is increased.

The present invention has been made to overcome the drawbacks of the prior art as described above, a bucket lift type continuous unloader having a simpler configuration that can reduce the size and weight of the equipment while maintaining the function of the conventional unloader It is technical problem to provide.

1 is a front view showing a continuous unloading machine of the conventional bucket elevator type.

Figure 2 is a front view showing a first embodiment of the continuous lifter of the bucket elevator type according to the present invention.

Figure 3 is a front view showing a second embodiment of the continuous unloader of the bucket elevator type according to the present invention.

[Explanation of symbols for the main parts of the drawings]

10... Bucket elevator, 11... Foot,

12... Discharge chute 13... Spiral Suit,

14. 15. Boom Conveyor Boom conveyor discharge chute,

17. Hopper, 18... Gantry conveyor,

19. Gantry conveyor discharge chute,

20... Pier conveyor, 30… Casing,

31. Drive unit; Bucket Chain,

33. Upper sprocket, 34... Lower Sprocket,

35. Foot, 36. Slope,

37. Take-up device.

In order to solve the above technical problem, the present invention, in the continuous unloader including a bucket elevator for transferring the cargo to the boom conveyor, the bucket elevator is the casing is rotatably connected to the end of the boom, the A driving device for rotating the casing, a bucket chain installed inside the casing, an upper sprocket installed inside the casing to drive the bucket chain, and a foot located outside the lower end of the casing and including two lower sprockets. It is characterized by consisting of.

In another aspect, the present invention is characterized in that in the continuous unloader, the foot further comprises a take-up device that can change the distance between the two lower sprockets.

Preferably, the casing of the continuous unloader is formed with an inclined portion at the upper end, the upper sprocket is located at the point where the casing and the boom is connected, the drive device is preferably a cylinder located at the top of the boom.

In addition, the casing is formed with an inclined portion at the upper end, and is connected to the boom at the starting point of the inclined portion, the upper sprocket is adjacent to the end of the inclined portion, the drive device is a cylinder located at the bottom of the boom It may be.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the combustion unloader according to the present invention.

Referring to FIG. 2, the casing 30 has an inclined portion 36 in which a portion of the upper end is bent, and is rotatably connected to the boom at the end of the inclined portion 36. In addition, the upper sprocket 33 for driving the bucket chain 32 is installed at the point where the casing 30 and the boom is connected. In addition, the end of the hydraulic cylinder is hinged to the upper portion of the boom, the end of the rod of the cylinder is connected to the end of the casing (30).

Foot 35 is located at the lower end of the casing 30. The foot 35 may be integrally formed with the casing 30 as an extension of the casing 30 supporting the two lower sprockets 34 as shown. Moreover, the take-up apparatus 37 which can adjust the distance between the lower sprockets 34 between the lower sprockets 34 is provided.

The bucket chain 32 is integrally connected from the foot 35 to the upper sprocket 33.

Accordingly, the raw material excavated at the foot 35 portion is transferred to the upper casing 30 through the inside of the casing 30 and falls over the boom conveyor 14 located at the lower portion of the casing 30 to the pier. It will be transferred to the conveyor.

Referring to Fig. 3, a second embodiment is shown. In the second embodiment, the casing 30 'and the boom are connected at the point where the inclined portion 36' starts, and the upper sprocket 33 is located at the end of the inclined portion 36 'past the connecting point. Except for the point, it is the same as the first embodiment.

According to the present invention having the above configuration, it is possible to remove the upper portion of the conventional bucket elevator can not only shorten the transport distance of the raw material cargo, but also the reach of the foot is further extended by the rotation of the casing Therefore, the length of the boom can be reduced by that much, and the weight of the overall unloader can be substantially reduced, thereby reducing the power required to operate the device, thereby enabling more efficient operation.

In addition, it will provide an economic advantage to reduce the cost of constructing the pier.

Claims (4)

In a continuous unloader comprising a bucket elevator (10) for transferring goods to the boom conveyor (14), The bucket elevator 10 has a casing 30 rotatably connected to an end of the boom, a driving device 31 for rotating the casing 30, and a bucket chain installed inside the casing 30 ( 32, an upper sprocket 33 installed inside the casing 30 to drive the bucket chain 32, and positioned outside the lower end of the casing 30 and including two lower sprockets 34. Continuous unloader, characterized in that consisting of a foot (35). The method of claim 1, The foot (35) is a continuous unloader, characterized in that it further comprises a take-up device (37) that can change the distance between the two lower sprockets (34). The method according to claim 1 or 2, The casing 30 has an inclined portion 36 formed at an upper end thereof, the upper sprocket 33 is located at the point where the casing 30 and the boom are connected, and the drive device 31 is located at the top of the boom. Continuous unloader, characterized in that the cylinder. The method according to claim 1 or 2, An inclined portion 36 'is formed at an upper end of the casing 30', and is connected to the boom at a point where the inclined portion 36 'starts, and the upper sprocket 33' is inclined portion ( 36 ') adjacent to the end, the drive unit 31 is a continuous unloader, characterized in that the cylinder located in the lower portion of the boom.