KR101316074B1 - Belt conveyor with a rotary drive unit - Google Patents

Abstract

The present invention is configured to separate the first conveyor and the second conveyor around the fixed structure as a conveyor device for transporting and loading aggregates including earth and sand, wherein the second conveyor is rotated at an angle along the circumference of the fixed structure. The present invention relates to a conveyor apparatus having a rotation unit configured to disperse a certain amount of aggregate over a large area, and to pile up, and more particularly, to a conveyor apparatus for transporting and loading aggregate including soil soil. A fixed structure which is fixedly installed at one side thereof, the first conveyor configured to be connected to one side of the fixed structure, and the first conveyor installed at one side of the first conveyor at one side of the fixed structure. One side and the top of the second conveyor and the fixed structure receives the aggregate conveyed from the Conveyor device provided with a rotating unit, characterized in that for connecting the second conveyor to one side of the fixed structure, comprising a rotating unit configured to rotate the second conveyor at a predetermined angle in the circumferential direction of the fixed structure. It is about.

Description

Conveyor unit with rotating unit {BELT CONVEYOR WITH A ROTARY DRIVE UNIT}

The present invention is configured to separate the first conveyor and the second conveyor around the fixed structure as a conveyor device for transporting and loading aggregates including earth and sand, wherein the second conveyor is rotated at an angle along the circumference of the fixed structure. The present invention relates to a conveyor apparatus having a rotating unit configured to be configured to disperse a certain amount of aggregate over a large area and to stack the aggregate.

Generally, belt conveyor is a type of continuous conveying machine which drives wide seamless annular belts between belt pulleys installed at both ends and conveys material, processed products and finished products on it. Used in

Such a belt conveyor device can be used in a variety of industrial sites, for example, mainly used in the site for unloading aggregates, such as soil and sand mixed with soil.

In the case of the earth and sand is gradually exhausted, the soil and gravel accumulated in the bottom of the river or port is mostly excavated by excavating a dredging (drilling vessel) to obtain a large amount of soil.

And the earth and sand collected by the earth and sand collection ship has a door at the bottom of the dock, so that the earth and sand are transferred to the open line or the earth and sand transport line where the soil is poured out from the bottom of the ship. After being transported and unloaded to a coastal landfill or yard by a conveyor barge, it is supplied as construction aggregate or landfill aggregate.

In other words, in order to transport the earth and sand of the Tosa Transport Line to a landfill or a yard by the shore, a conveyor barge for earth and sand loading is mainly used, and the main conveyor and main conveyor which receives and sand the earth and sand of the Tosa Carrier are transported to the Tosa Unloading Conveyor Barge. An unloading conveyor is installed to take the soil from the conveyor and feed it to the yard.

However, since most of the conveying conveyor devices are installed on the ground close to the sea lane to transport the soil and sand supplied from the unloading conveyor to the unloading ground. After stopping for a while, the process of transporting and unloading again the unloaded earth and sand into a separate space was repeated.

Accordingly, the use of construction equipment is essential, and there is a problem that additional costs such as oil charges, labor costs, and equipment usage fees for the construction equipment are required.

Therefore, the problem to be solved by the present invention is a conveyor device for transporting and loading aggregates including earth and sand separately configured by the first conveyor and the second conveyor around the fixed structure and the second conveyor is the circumference of the fixed structure It is an object to provide a conveyor device having a rotation unit is configured to be rotated at a predetermined angle along the can be stacked by distributing a certain amount of aggregate over a large area.

Conveyor device equipped with a rotation unit according to the problem to be solved of the present invention, the conveyor device for loading aggregate, including earth and sand, the fixed structure is fixed to the ground upright; A first conveyor configured at one side thereof to be connected to one side of the fixed structure; A second conveyor installed on one side of the fixed structure so as to be positioned at a lower side of the first conveyor and receiving aggregate delivered from the first conveyor; And a rotation unit connecting the second conveyor to one side of the fixed structure, the rotating unit being configured to rotate the second conveyor at an angle in the circumferential direction of the fixed structure.

As one example, the rotating unit is coupled to one side of the fixed structure and the upper frame is opened and the upper frame formed in the receiving space and the outlet hole therein; A lower frame spaced apart from the bottom of the upper frame, the lower frame coupled to expose the second conveyor; A rotation support unit mounted between the upper frame and the lower frame to connect the upper frame and the lower frame, the lower frame being pivoted from the upper frame; And a drive motor coupled to the lower frame to impart rotational force to the pivot support.

In addition, the rotation unit may include: an induction pipe which is inserted into an outlet hole of the upper frame and guides the aggregate introduced into the accommodation space to the second conveyor through the lower frame; And a speed reducer mounted between the drive motor and the rotation support and configured to reduce the rotational force generated from the rotation shaft of the drive motor.

In addition, a pinion gear is mounted to a rotation shaft of the reducer, and the rotation support part is coupled to the bottom surface of the upper frame in a ring shape, and a first ring and a first ring having a tooth gear engaged with the pinion gear on an inner circumferential surface thereof. A plurality of flow balls mounted at regular intervals along the outer circumferential surface of the ring and coupled to the outer circumferential surface of the first ring while receiving the flow ball in a ring shape having a relatively larger diameter than the first ring and the upper surface of the lower frame It characterized in that it comprises a second ring coupled to.

As an example, the upper frame may include a through hole formed at a position where the tooth gear and the pinion gear of the first ring of the pivot support part are engaged in the accommodation space; And a check window coupled to the upper portion of the through hole.

As an example, the present invention is characterized in that it further comprises a control unit for controlling the power supplied to the drive motor.

The control unit includes an analysis unit for grasping the operating time of the first conveyor and the weight of the aggregate input in real time to determine the expected amount of yard to be stored in the yard; And a processing unit which controls the power of the driving motor through the expected loading amount determined by the analysis unit and sequentially rotates the rotation support unit by a predetermined angle.

The control unit may further include a manual operation unit including a plurality of switches for controlling the power supplied to the driving motor to manipulate the rotation direction or the rotation angle of the rotation support.

As one example, the support bracket is coupled to the upper side of the fixed structure and the rotation bearing is mounted to any one portion; And at least one support wire connecting the second conveyor and the pivot bearing of the support bracket.

As described in detail above, the conveyor device provided with the rotation unit according to the present invention is configured to separately separate the first conveyor and the second conveyor around the fixed structure, and the second conveyor is formed at an angle along the circumference of the fixed structure. It is equipped with a rotating unit that can rotate to distribute a certain amount of aggregate over a large area, so that it can efficiently accumulate aggregates without mobilization of additional construction equipment, and thus the oil price, labor cost and equipment fee for construction equipment There is an effect that can reduce the cost.

BRIEF DESCRIPTION OF THE DRAWINGS The front view which shows the structure of the conveyor apparatus provided with the rotating unit which concerns on this invention.
2A is a front view showing the configuration of a rotation unit that is one configuration of the present invention.
FIG. 2B is a sectional view taken along line AA ′ of FIG. 2A;
3 is an exploded view of a rotation unit of one configuration of the present invention.
Figure 4 is a plan view for explaining the operating state of the conveyor device provided with a rotation unit according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a front view showing the configuration of a conveyor device provided with a rotation unit according to the present invention, Figure 2a is a front view showing the configuration of a rotation unit of one configuration of the present invention, Figure 2b is a cross-sectional view AA 'of FIG. And, Figure 3 is an exploded view of a rotating unit of one configuration of the present invention, Figure 4 is a plan view for explaining the operating state of the conveyor device provided with the rotating unit according to the present invention.

Conveyor device equipped with a rotation unit according to the present invention is a conveyor device for transporting and loading aggregates including earth and sand, as shown in Figure 1 is configured on the fixed structure 10 and one side of the fixed structure (10) The second conveyor 30 and the second conveyor 30 configured to be connected to the first conveyor 20 at the other side of the first conveyor 20 and the fixed structure 10 from the fixed structure 10. It is comprised including the rotation unit 40 for rotating at a predetermined angle.

The fixed structure 10 is to be fixed to the ground in the upright, it may be composed of a steel structure or concrete structure, a plurality of support members 100 are additionally coupled to support the load and maintain the verticality Can be.

The first conveyor 20 is a conveyor to which the aggregate supplied from a barge, etc., which unloads aggregates (hereinafter referred to as 'aggregates') including ore, gravel or earth and sand, is first introduced. Transfer to two conveyors (30).

As shown in FIG. 1, the first conveyor 20 is configured such that one side thereof is connected to the upper side of the fixed structure 10 by a hinge coupling. In addition, the first conveyor 20 is supported by a plurality of wires 210 connected at regular intervals to the upright support structure 200 coupled to the center thereof, and adjusts the length of the wires 210. As the height of the other side can be adjusted based on the center.

This is to take into account the aggregate input conditions, to adjust the height of the other side of the first conveyor 20 to correspond to the various height structures of the aggregate supply source, such as barges.

In addition, the input conveyor 21 may be selectively connected to the other side of the first conveyor. The input conveyor 21 is configured to be rotatable at the other end of the first conveyor 20 to deliver the aggregate supplied from the barge to the other side of the first conveyor (20). The input conveyor 21 is also fluidly rotated according to the unloading position of the barge.

On the other hand, the second conveyor 30 is installed to be located on one side lower portion of the first conveyor 20 on one side of the fixed structure 10, and delivers the aggregate transported from the first conveyor (20). Take it and dump it as a yard.

The second conveyor 30 is coupled to the fixed structure 10 through the rotation unit 40 to be described below, an additional support member may be coupled to sufficiently support the load.

For example, the support member is coupled to the upper one side of the fixed structure 10 and the support bracket 50 and the second conveyor 30 and the support are mounted to any one portion of the rotating bearing (not shown) It may be configured to include one or more support wires (60) connecting the pivot bearing of the bracket (50).

Accordingly, the support member supports the load while the second conveyor 30 rotates by the rotation unit 40 and supports the load according to the position of the second conveyor 30 by the configuration of the rotation bearing. Wire 60 also allows flow.

Here, the above-mentioned first conveyor 20 and the second conveyor 30 is a belt conveyor device for conveying aggregate and the like, a plurality of support rollers for supporting the circular transfer belt and the circular transfer belt from above and below. And a truss frame supporting the support roller and a motor for circulating the circular transfer belt are integrally formed. Such a conveyor structure is not limited to the above-mentioned configuration and can be variously implemented by known techniques, and a detailed description thereof will be omitted.

On the other hand, according to the present invention, the second conveyor 30 is configured to be capable of lateral rotation on one side of the fixed structure 10, so that a certain amount of aggregate can be dispersed over a large area of the yard.

In the present invention proposes a rotating unit 40 in a configuration for implementing this, the rotating unit 40 is coupled to one side of the fixed structure 10 to the second conveyor 30 fixed structure (10) ), But rotates the second conveyor 30 at a predetermined angle in the circumferential direction of the fixed structure (10).

Specifically, referring to the rotation unit 40 according to an embodiment of the present invention, as shown in Figures 2a and 2b coupling means including a bolt or the like on one side of the fixed structure 10 (not shown) The upper frame 400 coupled to the upper frame 400 and the lower frame 410 spaced apart from the bottom of the upper frame 400, and mounted between the upper frame 400 and the lower frame 410. 400 and the lower frame 410, but is coupled to the rotation support portion 420 and the lower frame 410 is configured to rotate the lower frame 410 from the upper frame 400 and the rotation support portion 420 It is configured to include a drive motor 430 to give a rotational force.

The upper frame 400 is located at the lower side of one side of the first conveyor 20, the upper portion is opened to serve as a hopper and an accommodation space 401 is provided therein. Accordingly, the aggregate falling from the first conveyor 20 is accommodated in the receiving space 401.

In addition, the upper frame 400 has an outlet hole 402 penetrating through the accommodation space 401 to discharge the aggregate contained in the accommodation space 401 through the outlet hole 402.

At this time, the location of the outlet hole 402 is to be delivered to the second conveyor 30 through the lower frame 410, the aggregate discharged to face the lower frame 410.

In addition, the upper frame 400 is not shown in the figure, but the slope is formed so that the inner surface constituting the receiving space 401 toward the outlet hole 402 is received aggregate is the discharge hole by its own weight It is reasonable to be configured to lead to 402.

The upper surface of the lower frame 410 is connected to the bottom of the upper frame 400 through the rotation support 420, the lower portion of the second conveyor 30 is coupled to expose the circulating conveying belt is As described, the aggregate discharged through the outlet hole 402 of the upper frame 400 is delivered to the second conveyor 30.

In addition, the rotation unit 40 is mounted between the driving motor 430 and the rotation support part 420, and the reduction gear 450 for reducing the rotational force generated from the rotation shaft 430-1 of the driving motor 430. ) Is configured to prevent overload of the driving motor 430 and to allow the second conveyor 30 to rotate more smoothly.

On the other hand, the pivot support 420 in connecting the upper frame 400 and the lower frame 410, the lower frame 410 from the upper frame 400 is fixed to the fixed structure 10 Along with the support, the lower frame 410 is rotated by the rotational force of the driving motor 430.

For example, the pivot support 420 rotates the lower frame 410 and the second conveyor 30 coupled thereto through a bearing and a gear structure.

Referring to FIG. 3, first, the pinion gear 451 is mounted on the rotation shaft 450-1 of the reduction gear 450 to realize rotation through gear engagement, and the rotation support part 420 is a ring. The first ring 421 and the first ring 421 of the first ring 421 is coupled to the bottom surface of the upper frame 400 and the tooth gear 421-1 engaging with the pinion gear 451 is formed on an inner circumferential surface thereof. The outer circumferential surface of the first ring 421 while accommodating the flow ball 422 in a ring shape having a relatively larger diameter than the plurality of flow balls 422 and the first ring 421 that are mounted at regular intervals along the outer circumferential surface Composed in close contact with the second frame 410 is coupled to the upper surface of the lower frame 410.

That is, the first ring 421 and the second ring 423 have a bearing structure corresponding to the inner ring and the outer ring, respectively, and the inner circumferential surface of the first ring 421 is fitted with the pinion gear 451. As the toothed gear 402 is formed, the lower frame 410 coupled with the driving motor 430 as well as the driving motor 430 according to the rotational force applied from the driving motor 430 is the upper frame 400. Will be rotated from In addition, due to the rotation of the upper frame 400, the second conveyor 30 coupled thereto is also rotated.

The upper frame 400 is fixed to the fixed structure 10 in a coupling relationship between the upper frame 400 and the lower frame 410 and the first ring 421 and the second ring 423. Therefore, the first ring 421 is also fixed, and the lower frame 410 and the second ring 423 which are relative to each other are movable, so that the pinion gear 451 is driven by the rotational force of the drive motor 430. Is rotated in the circumferential direction along the gear gear 402 formed on the inner circumferential surface of the first ring 421. Accordingly, the lower frame 410 to which the driving motor 430 is coupled as well as the second conveyor 30 coupled to the lower portion of the lower frame 410 are rotated from the upper frame 400.

At this time, the maximum rotation angle of the second conveyor 30 is configured not to exceed 180 degrees, it is reasonable to prevent the interference between the second conveyor 30 and the side of the fixed structure (10).

In addition, the plurality of flow balls 422 disposed between the first ring 421 and the second ring 423 are provided in a ball shape in the drawings, but are not limited thereto. You may apply it. However, in the present invention, in consideration of the structure of the lower frame 410 connected to the upper frame 400 through the pivot support 420, it is preferable to use a ball shape to support a high load, more preferably The conical weight is appropriate to be able to firmly support the lateral load as well as the celebration generated from the lower frame 410.

On the other hand, according to an embodiment of the present invention, the rotation unit 40 is characterized in that the induction pipe 440 is further configured.

The induction pipe 440 is inserted into the outlet hole 402 in a circular tube shape having a predetermined length, one end of which is inserted close to the second conveyor 30 through the interior of the lower frame 410. It is configured to be positioned so as to guide the aggregate accommodated in the receiving space 401 to be directly put on the second conveyor 30 via the lower frame 410, the aggregate transported is scattered to the outside and various risks Can be prevented from being exposed.

In addition, the upper frame 400 is provided with a through hole 403 and the inspection window 404 for ease of maintenance.

The through hole 403 is formed through the lower portion of the receiving space 401, so that the tooth gear 402 and the pinion gear of the first ring 421 of the pivot support portion 420 is engaged with each other. Visually check the meshing of the gears.

And, the inspection window 404 is coupled to the through hole 403 is configured to seal the through hole 403 to prevent foreign substances, including aggregate through the through hole 403, preferably It is made of a translucent or transparent material to check the meshing state of the gear through the through hole 403 without removing the inspection window 404.

On the other hand, according to an embodiment of the present invention, although not shown in the drawings, further includes a control unit for controlling the power supplied to the drive motor 430, the control unit is driven through the automatic or manual control The rotation unit 40 is driven by controlling the motor 430.

Specifically, the control unit collects in real time the operating time of the first conveyor 20 and the weight of the input aggregates to determine the expected loading amount to be stored in the yard and the expected loading amount identified by the analysis unit By controlling the power of the drive motor 430 through the processing unit for sequentially rotating the rotation support 420 by a predetermined angle, it is configured to automatically distribute the amount of aggregate supplied from the barge in the yard You can do it.

In addition, the control unit may further include a manual operation unit including a plurality of switches for controlling the power supplied to the driving motor 430 to manipulate the rotational direction or the rotation angle of the rotation support unit 420. .

The manual operation unit is for the administrator to selectively control the drive motor 430, and by operating each operation switch it is possible to rotate the drive motor 430 in the forward or reverse direction through the power control.

As such, the conveyor device equipped with the rotation unit according to the present invention is to stack the aggregate supplied to the conveyor device in the yard as shown in Figure 4, when a certain amount of aggregate is stored in the second conveyor by controlling the flow unit By repeating the yard and the rotation, such as rotating the 30 at a predetermined angle to move to the next position and carrying out the yard again, the aggregate and the like can be dispersed and loaded over a large area.

Therefore, it is possible to efficiently accumulate aggregates, etc. without mobilization of additional construction equipment, thereby reducing the cost of oil camp, labor costs and equipment usage fee for construction equipment.

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. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

10: fixed structure 20: first conveyor
21: input conveyor 30: second conveyor
40: rotation unit 50: support bracket
60: support wire
400: upper frame 410: lower frame
420: rotation support 430: drive motor
440: induction pipe 450: reducer

Claims (9)

In the conveyor apparatus for conveying and loading aggregate including soil soil,
A fixed structure fixedly installed on the ground in an upright type;
A first conveyor configured at one side thereof to be connected to one side of the fixed structure;
A second conveyor installed on one side of the fixed structure so as to be positioned at a lower side of the first conveyor and receiving aggregate delivered from the first conveyor; And
A rotating unit configured to connect the second conveyor to one side of the fixed structure, and to rotate the second conveyor at an angle in the circumferential direction of the fixed structure,
The rotating unit
An upper frame coupled to one side of the fixing structure and having an upper opening and an accommodation space and an outlet hole formed therein;
A lower frame spaced apart from the bottom of the upper frame, the lower frame coupled to expose the second conveyor;
A rotation support unit mounted between the upper frame and the lower frame to connect the upper frame and the lower frame, the lower frame being pivoted from the upper frame; And
And a drive motor coupled to the lower frame and providing a rotational force to the pivot support.
delete The method of claim 1,
The rotating unit
An induction pipe inserted into the outlet hole of the upper frame to guide the aggregate introduced into the receiving space to the second conveyor through the lower frame; And
And a reduction gear mounted between the driving motor and the rotation support part to reduce a rotational force generated from the rotation shaft of the driving motor.
The method of claim 3, wherein
The pinion gear is mounted to the rotation shaft of the reducer,
The pivot support is
The first ring is coupled to the bottom surface of the upper frame in a ring shape and a plurality of floating balls are mounted at regular intervals along the outer circumferential surface of the first ring and the first ring is formed in the inner circumferential surface of the tooth gear is engaged with the pinion gear; The rotating unit includes a second ring coupled to the outer circumferential surface of the first ring and coupled to the upper surface of the lower frame while accommodating the floating ball in a ring shape having a larger diameter than the ring. Conveyor unit.
5. The method of claim 4,
The upper frame
A through hole formed at a position where the toothed gear and the pinion gear of the first ring of the pivot support portion are engaged in the accommodation space; And
Conveyor device provided with a rotating unit, characterized in that it further comprises a check window coupled to the upper portion of the through.
The method of claim 1,
And a control unit for controlling the power supplied to the drive motor.
The method according to claim 6,
The control unit
An analysis unit which collects the operating time of the first conveyor and the weight of the input aggregate in real time to determine an expected loading amount to be loaded into a yard; And
And a processing unit for controlling the power supply of the driving motor through the expected loading amount determined by the analysis unit to sequentially rotate the pivot support unit by a predetermined angle.
8. The method of claim 7,
The control unit
And a manual operation unit including a plurality of switches for controlling the power supplied to the driving motor to manipulate the rotational direction and the rotation angle of the rotation support unit.
The method of claim 1,
A support bracket coupled to an upper side of the fixed structure and having a rotation bearing mounted at a portion thereof; And
And at least one support wire connecting the second conveyor and the rotation bearing of the support bracket.

Images