KR100984105B1 - Device for adjusting chain tension of bucket elevator - Google Patents

Abstract

The present invention relates to an adjustment device that can easily adjust the tension applied to the chain of the bucket elevator, it is fitted to both ends of the rotating shaft 8 disposed through the housing 14, the shaft of the outer wall surface of the housing 14 A seal plate 52 disposed to be in contact with the flow hole 8 'in a sealed manner; The upper and lower ends are bent at a distance from the seal plate 52 and bolted to the guide fixing bracket 51 fixed to the outer wall surface of the housing 14, and are cut in a predetermined width from the upper end to the lower end so that the rotating shaft ( A guide plate 55 supporting the bearing block 9 for fixing 8) to be elevated; A sealing spring 54 interposed between the seal plate 52 and the connection bar 53 for supporting the bearing block 9; A pedestal (90) disposed through the housing (14) and disposed higher than the rotary shaft (8); A pair of tension adjusting bars (80) having one end fixed to an upper surface of the bearing block (9) and the other end fixed to the pedestal (90); A weight box (70) fixed to an upper surface of the pedestal (90) and having a storage space for the weight (72); Chain tension adjustment of the bucket elevator including the weight box 70 and is fixed on the pedestal 90 and the upper surface is configured to include a distribution duct 60 inclined downward toward the chain (6) side Provide a device.

According to the present invention, it is possible to prevent damage or damage of equipment by timely coping with the tension readjustment automatically according to the tension change of the chain during vertical transfer of the conveyed material, and also to drop the drop appropriately when the conveyed object falls. By suppressing contact with the sprockets it is possible to perform a smooth transfer operation.

Description

Chain tensioning device of bucket elevator {DEVICE FOR ADJUSTING CHAIN TENSION OF BUCKET ELEVATOR}

1 is a schematic illustration showing a general dust transfer facility,

2 is an exemplary view showing a state of use of a conventional bucket elevator,

Figure 3 is a schematic cross-sectional view showing an installation state of the device of the present invention,

4 is a perspective view of main parts of the device of the present invention;

5 is a cross-sectional view of the main portion of the coupling state of the present invention,

6 is an exploded perspective view of part of FIG. 5;

Explanation of symbols on the main parts of the drawings

6 .... chain 7 .... sprockets

8 .... Rotary shaft 9 .... Bearing block

14.Housing 51 ... Guide fixing bracket

52 .... Seal plate 53 .... Connection bar

54 .... Sealing spring 55 .... Guide plate

56 .... Guide rail 57 .... Guide ring

60 ... distribution duct 62 ... scraper

70 .... weight box 72 .... weight                 

80 .... tension bar 90.

The present invention relates to an adjustment device that can easily adjust the tension applied to the chain of the bucket elevator to load the dust collected in the dust collector in a vertical transfer.

In general, as shown in FIG. 1, dust collected through the dust collector 1 is transferred to the bucket elevator 4 through the screw conveyor 2 and the flow conveyor 3, and then by the bucket elevator 4. After the vertical transfer is collected to the storage tank (5).

At this time, the bucket elevator 4 carries vertically the dust (hereinafter referred to as 'transport') introduced through the flow conveyor 3 while vertically rotating the distance of about 27 m.

The bucket elevator 4 needs to adjust the tension of the chain in which the bucket is fixed due to various factors such as the amount of conveyed material, that is, the remarkable change in tension according to the load change and the need for readjustment of tension due to the wear of the sprocket. . If the tension is not adjusted in such a situation, it may cause a large equipment accident such as a chain breakage due to overload, or a chain breakdown due to tension imbalance.

For tension adjustment, as shown in FIG. 2, the guider 10 is disposed along the rotation shaft 8 that protrudes outward through the housing 14 of the sprocket 7 installed for driving the chain 6. A bearing block 9 for lifting and lowering is installed, and a tension adjusting rod 11 is fixed to an upper end of the bearing block 9, and an adjusting nut 13 is fastened to an upper end of the tension adjusting rod 11 to fix the tension adjusting rod 11. The tension of the chain 6 was adjusted by raising and lowering the tension adjusting rod 11 by tightening and releasing the adjusting nut 13 between the fixing member 12 provided somewhere on the outer wall of the housing 14.

However, such a chain tension adjustment operation by manual operation cannot actively cope with instantaneous load fluctuations, and can only be checked and readjusted by the neck side only when the sprocket 7 is badly worn and the tension of the chain is significantly loosened. There is no limit.

Recently, as a part of overcoming the problem of tension control, the present inventors have applied for a utility model registration application (registration number 0227470: 2001.4.4 registration), a "bucket conveyor tension adjusting device" has been known.

However, in the case of the registered technology, the practical value is very good, but the structure is complicated, and the installation is very cumbersome, and the interference of the equipment by the falling objects during transportation and the decrease in the work efficiency, Problems such as frequent breakdowns of facilities could not be actively solved, and urgent improvements were required.

The present invention has been researched and developed to provide a more complete bucket elevator for its improvement in accordance with the request as described above, the structure is simple and easy to install and thoroughly block the problems of equipment interference and equipment failure due to rockfall Its purpose is to provide a chain tensioning device for a bucket elevator that enables efficient transport operations.

The above object of the present invention is fitted to both ends of the rotating shaft 8 disposed through the housing 14 and arranged to be in contact in a manner of sealing the shaft flow hole 8 ′ of the outer wall of the housing 14. A seal plate 52; The upper and lower ends are bent at a distance from the seal plate 52 and bolted to the guide fixing bracket 51 fixed to the outer wall surface of the housing 14, and are cut in a predetermined width from the upper end to the lower end so that the rotating shaft ( A guide plate 55 supporting the bearing block 9 for fixing 8) to be elevated; A sealing spring 54 interposed between the seal plate 52 and the connection bar 53 for supporting the bearing block 9; A pedestal (90) disposed through the housing (14) and disposed higher than the rotary shaft (8); A pair of tension adjusting bars (80) having one end fixed to an upper surface of the bearing block (9) and the other end fixed to the pedestal (90); A weight box (70) fixed to an upper surface of the pedestal (90) and having a storage space for the weight (72); Chain tension adjustment of the bucket elevator including the weight box 70 and is fixed on the pedestal 90 and the upper surface is configured to include a distribution duct 60 inclined downward toward the chain (6) side By providing a device.

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

Figure 3 is a schematic cross-sectional view showing an installation state of the device of the present invention, Figure 4 is a perspective view of the main part of the device of the present invention, Figure 5 is a cross-sectional view of the main portion of the device of the present invention, Figure 6 is a partially exploded perspective view of FIG. .                     

As shown in FIGS. 3 and 4, both outer wall surfaces of the housing 14 are provided with bearing blocks 9 which are movable in both sides of the rotating shaft 8 protruding therefrom, and the bearing block 8 The tension adjusting device 50 of the present invention is fixed, and the tension adjusting device 50 is provided with a tension adjusting bar 80 connected thereto in a vertical direction, and the pedestal 90 is provided on the tension adjusting bar 80. The weight box 70 and the distribution duct 60 are fixed on the pedestal 90.

In particular, the weight box 70 is fixed inside the distribution duct 60, and the weight ('72' of FIG. 5), which will be described later, is retractable.

In addition, the pedestal 90, the distribution duct 60 and the weight box 70 is installed in the housing (14).

In addition, the distribution duct 60 is a trapezoidal box having both sides open to form an inclined top surface thereof.

The inclination direction of the distribution duct 60 is directed toward the side of the chain 6 which is driven to rotate along the sprocket 7. As shown in the bottom enlarged view of FIG. 4, a plurality of buckets B are fixed to the chain 6. The chain 6 and the bucket B are positioned at the center of the inclined width of the distribution duct 60 so that the falling objects are deflected to both sides with the chain 6 and the bucket B interposed therebetween. While being installed to guide to the bottom side of the housing 14 is preferred.

In addition, the inside of the inclined upper end of the distribution duct 60 is provided with a scraper 62 fixed by the fixing bracket 64 and extending toward the chain 6 side, and the scraper 62 is made of rubber, which is a flexible material. In the same way, it is possible to scrape a part of the conveyed material attached to it by contacting the inner surface of the chain 6 having the bucket returned to the empty state after conveying the conveyed material.

As shown in FIGS. 5 and 6, the tension adjusting device 50 has a pair of guide fixing brackets disposed on the upper and lower sides of the outer wall surface of the housing 14 with the axial flow holes 8 ′ in which the rotating shaft 8 flows up and down. 51) is fixed.

The guide fixing bracket 51 is bolted to the guide plate 55 formed by cutting the upper and lower ends as shown in FIG.

In addition, a seal plate 52 capable of sealing the shaft flow hole 8 ′ while being fitted to the rotary shaft 8 is disposed to be in contact with the outer wall surface of the housing 14. It is preferable that the shape of the 'c' is disposed on the space surrounded by the guide fixing bracket 51 and the guide plate 55.

On the other hand, the guide rail 55 is formed in the cut portion of the guide plate 55 is formed in the vertical direction, the guide rail 56 is inserted into the bearing block (9) capable of moving accordingly.

In the state in which the bearing block 9 is inserted, the guide ring 57 is welded to reach the upper end of the cut portion.

A pair of bar fixing holes 9 'are formed in the upper and lower ends of the bearing block 9, and a connecting bar 53 is fitted into the bar fixing holes 9'. Is fastened to the seal plate 52, and the other end thereof is connected to each other by being fastened with nuts in a state penetrating through the bar fixing holes 9 '.                     

At this time, the connecting bar 53 is provided with a sealing spring 54, one end of the sealing spring 54 is in close contact with the seal plate 52 and the other end is in close contact with the bearing block 9 side the seal The plate 52 is configured to seal the axial flow hole 8 ′ formed by contact with the outer wall of the housing 14 by the sealing spring 54.

In addition, the tension adjustment bar 80 is fixed to the upper end surface of the bearing block 9, the tension adjustment bar 80 is a pedestal in a state arranged to be smoothly guided up and down through the guide ring (57) ( 90) One side and the nut are fixed.

Accordingly, the tension adjusting bar 80 will be raised and lowered according to the load applied to the pedestal 90, and the bearing block 9 connected thereto moves along the guide rails 56 in the guide plate 55. The tension of the chain is adjusted while the rotating shaft 8 of the sprocket 7 flows in the axial flow hole 8 '.

The operating relationship of the present invention made of such a configuration is as follows.

When the transported material such as collected dust and dust is introduced into the bucket elevator 4, the transported buckets fixed to the chain 6 rotated by the sprockets 7 are inserted and vertically transported. After that it is moved to the storage tank (5).

If this process is repeatedly performed, if the load change of the conveyance is caused excessively or the tension of the chain 6 is loosened due to the decrease in diameter due to the wear of the sprocket 7, the weight stored in the weight box 70 ( The tension imbalance between the two shafts 72 and the rotational shaft 8 is caused.                     

When such a situation occurs, the weight of the weight 72 is greater, so the pedestal 90 is about to descend, and the tension adjustment bar 80 connected thereto is lowered, causing the bearing block 9 to guide the rail 56. Ride down to apply a downward force.

Therefore, as the rotating shaft 8 flows downward in the shaft flow hole 8 'as the bearing block 9 descends, the tension applied to the chain 6 is automatically adjusted.

On the other hand, if there is a conveying object falling from the upper side of the housing 14 during the conveying of the conveyed object, the falling conveyed object falls to the upper inclined plane of the distribution duct 60 and then flows along the inclined state, and the flowing direction is the chain 6 ), So that the sprocket 7 is not contaminated.

Therefore, smooth transfer operation is possible.

As described in detail above, according to the present invention, even when the tension of the chain is vertically transported, the tension readjustment operation is automatically performed in a timely manner, thereby preventing damage or damage of the equipment, and also when the transport falls. It is possible to perform a smooth transfer operation by suppressing contact with the sprockets by appropriately dispensing and dropping.

Claims (3)

A seal plate 52 fitted to both ends of the rotation shaft 8 disposed through the housing 14 to be in contact with each other in a form of sealing the shaft flow hole 8 'of the outer wall of the housing 14; The upper and lower ends are bent at a distance from the seal plate 52 and bolted to the guide fixing bracket 51 fixed to the outer wall surface of the housing 14, and are cut in a predetermined width from the upper end to the lower end so that the rotating shaft ( A guide plate 55 supporting the bearing block 9 for fixing 8) to be elevated;  A sealing spring 54 interposed between the seal plate 52 and the connection bar 53 for supporting the bearing block 9; A pedestal (90) disposed through the housing (14) and disposed higher than the rotary shaft (8); A pair of tension adjusting bars (80) having one end fixed to an upper surface of the bearing block (9) and the other end fixed to the pedestal (90); A weight box (70) fixed to an upper surface of the pedestal (90) and having a storage space for the weight (72); Chain tension adjustment of the bucket elevator including the weight box 70 and is fixed on the pedestal 90 and the upper surface is configured to include a distribution duct 60 inclined downward toward the chain (6) side Device. The method according to claim 1, Chain tension adjusting device of the bucket elevator, characterized in that the guide ring 57 is fixed to the tension adjustment bar 80 is fitted to the upper end of the cutting portion is raised and lowered the bearing block (9) of the guide plate (55). The method according to claim 1, Chain tension adjusting device of the bucket elevator, characterized in that the scraper 62 of the rubber material that is in contact with the return chain (6) is installed in the inclined upper end of the distribution duct (60).

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