KR101139755B1 - Auto Control Apparatus for Preventing Residual of Bucket Elevator - Google Patents

Abstract

The present invention relates to an automatic control device for preventing the remaining amount of a bucket elevator, the rotation driving force is transmitted to the driven sprocket coupled to the rotating shaft through the chain, the bucket is mounted at a predetermined interval on the chain, guide case for preventing the remaining amount of the object to be transported A bucket elevator installed below the rotating shaft, the inner ring metal bearings respectively fixed to both sides of the rotating shaft; An outer ring metal bearing in close contact with the inner ring metal bearing to support the rotational force of the rotating shaft; A bearing housing coupled to the outer ring metal bearing and mounted between the outer ring metal bearing and the driven sprocket; A take-up screw coupled to the bearing housing to adjust a lifting position of the rotating shaft and the guide case; And a lower case in which a plurality of cases are screwed under an upper case accommodating the bucket elevator, and the bucket elevator is installed in a lower case. The present invention is to ensure that the chain is always maintained by a constant tension by the weight of the weight body mounted on the guide case even if the chain of the bucket elevator occurs, so that the carrying object can be continuously transported to the bucket, and built-in design It is eco-friendly with a structure that blocks foreign substances and scattering dust, and it is eco-friendly. Even if the chain is extended by the automatic adjustment of tension, the shaft and the guide case can be adjusted together, enabling smooth operation. This ensures that no extra charge is left, which improves the function and reliability of the bucket elevator.

Description

Automatic Control Apparatus for Preventing Residual of Bucket Elevator}

The present invention relates to a device for preventing the remaining amount of the object to be transported inside the bucket elevator, and more particularly, so that the residual amount of the object to be transported is easily contained due to the moisture contained between the bucket and the guide case of the bucket elevator. It relates to an apparatus for automatically adjusting between the bucket and the guide case in response to the stretching of the vehicle.

In general, a bucket elevator is a bucket (or bucket) conveyor for vertical conveyance. It is a device that transports a bucket to carry the object in the bucket by moving and rotating the chain, chain or belt, etc. Such a bucket elevator is made up of various shapes or structures depending on the object to be transported.

The structure of a conventional bucket elevator is shown in FIG. 1, wherein the bucket elevator has a case 101 having a predetermined height and a space formed therein. The driving drum is rotated by the rotational force of the motor installed on the upper part of the bucket elevator, and the belt 102 is connected between the interlocking drums 104 spaced apart from the driving drum by a predetermined distance, and the plurality of buckets 103 are connected to the belt at regular intervals. Is equipped. And under the interlocking drum 104 is provided with a guide case 111 to be transported and stacked. The interlocking drum 104 is rotatably supported on the shaft of the bearing portion 105. When the bucket elevator is driven for a long time, the belt that transmits the rotational force between the driving drum and the interlocking drum is loosened, and there is a problem that it is not possible to transfer the remaining amount of the object to be carried on the guide case bottom surface due to the rotation error of the bucket.

Therefore, when the take-up screw 108 is fixedly supported by the plurality of screws 110 on the fixing plate 109 provided on the outer surface of the case 101, and the take-up screw 108 is adjusted up and down, The take-up guide 107 supported by the take-up screw 108 is lifted so that the bearing portion 105 and the guide case 111 connected to the take-up guide 107 are lifted. Therefore, the bearing portion 105 is lowered according to the stretching of the belt 102 so that the belt 102 is brought into close contact with the interlocking drum 104 so that the bucket 103 is not spaced apart from the guide case 111. The sealing plate 106 is provided between the take-up guide 107 and the case 101.

As a conventional technology for adjusting the bearing part in accordance with the increase in the belt as described above, there is a feed residue removal device of the feed elevator for domestic utility model registration No. 1996-6116. In this technology, it is possible to solve the slip phenomenon between the interlocking drum and the belt and the bucket breakage caused by the increase of the belt. That is, as the tension adjusting screw 8 penetrates the female screw member 7 of the fixed plate body 6 attached to the front and rear plate bodies 2 of the lower casing 1 by screw assembly, the linkage shaft 11 is downward. In the feed elevator bucket elevator configured to be able to adjust the tension of the bucket belt 15 connected to the interlocking drum 14 so that the movement, the tension through the bolt mounting hole 13 on both sides of the bearing hole of the front and rear plate body A configuration in which the adjustment plate 4 and the cleaning bucket 17 are fastened as bolts; The bearing bucket 18 of the cleaning bucket is fitted to the interlocking shaft 11 so that the interlocking drum and the cleaning bucket move together when the tension adjusting screw is adjusted.

The prior art has a configuration in which the cleaning bucket is installed to move together with the interlocking drum mounted inside the lower casing of the feed elevator bucket elevator and the bucket is installed in a state adjacent to the inner bottom surface of the cleaning bucket, the bucket at the feed inlet side When the feed is continuously received, the feed that falls into the bottom of the cleaning bucket is moved while scraping and the feed is completely stored in the bottom of the cleaning bucket to prevent the remaining food. It is to protect your health.

However, in the related art, it is difficult to know when and how much adjustment is made because the stretching cycle is frequently generated due to the frequent stretching of the belt connecting the rotational force of the driving drum and the interlocking drum. That is, even if the belt is stretched, if the tension is not artificially adjusted, the guide case is fixed in position so that a practical error occurs. If the tension is not applied in time even though the belt is stretched, the guide case and the bucket collide when the bucket rotates from the lower side, which causes the life of the belt to be shortened, such as breakage of the bucket and tearing of the belt. And at the same time to adjust the tension adjusting screw (take-up screw) there was a cumbersome problem to readjust the sealing plate to maintain the airtight inside and outside the case. Furthermore, the object to be transported leaks to the outside and at the same time affects the bearing part, thereby causing a load on the rotation of the interlocking drum or providing various problems in driving the bucket elevator.

In addition, since the bearing supporting the bearing part of the interlocking drum is installed outside the case, the sealing structure blocking the outside and the inside becomes a problem, and various foreign substances leak from the bearing part to contaminate the surrounding environment and fail due to premature loss of the bearing. Will cause. And since the replacement cycle of the bearing several times between one or two years, there was a problem in that the cost of stopping the bucket elevator and replacing the bearing.

Furthermore, if the elongated belt is not properly adjusted in a timely manner, the bucket may interfere with the guide case, causing the bucket to be continuously detached or broken when the bucket elevator is operated at a high speed.

Therefore, when the above problems are caused by a conveying object such as solids or gypsum fixed to the guide case, there is a problem of causing a big safety accident such as a fatal loss of the bucket elevator.

In order to solve the problem of the present invention, a solid substance such as sewage sludge or moisture such as gypsum such as cement is adhered to the guide case bottom so that various problems do not occur in the bucket elevator. The purpose is to.

In addition, another object of the present invention is to apply a metal bearing consisting of a wear-resistant outer ring and an inner ring for supporting the rotating shaft, and to carry the lubricating object even if the object is introduced between the metal bearings.

In addition, another object of the present invention is to allow the bearing part to be built-in in the case so that the object to be transported does not leak into the airtightness inside and outside the case.

In addition, the present invention is integrally configured with a weight of a certain weight on the outer periphery of the guide case by the adjustment of the take-up screw, the bearing part is automatically lowered at once at a time by its own load between the trajectories of the bucket to rotate along the guide case Another object is to ensure that the minimum space is formed, so that the remaining amount of the object to be transported does not remain in the guide case.

Furthermore, another object of the present invention is to determine whether the chain is cut by detecting whether the bucket elevator is driven by applying a sensor that detects rotation of the rotating shaft.

The present invention, in order to achieve the above object, the rotational driving force is transmitted to the driven sprocket coupled to the rotating shaft through the chain, the bucket is mounted on the chain at regular intervals, a guide case for preventing the remaining amount of the transport object is installed below the rotating shaft A bucket elevator, comprising: inner ring metal bearings fixedly coupled to both sides of the rotating shaft; An outer ring metal bearing in close contact with the inner ring metal bearing to support the rotational force of the rotating shaft; A bearing housing coupled to the outer ring metal bearing and mounted between the outer ring metal bearing and the driven sprocket; A take-up screw coupled to the bearing housing to adjust a lifting position of the rotating shaft and the guide case; And a lower case in which a plurality of cases are screwed under the upper case accommodating the bucket elevator, and the bucket elevator is provided with an automatic control device for preventing the remaining amount of the bucket elevator installed in the lower case.

According to the present invention, by the above solution means, the rotating shaft of the bucket elevator and the bucket can be built in the lower case to maintain the airtightness to the outside, and the metal bearing supporting the rotating shaft of the bucket elevator in the case to install the rotating part of the bearing part It is effective in preventing environmental pollution by preventing foreign substances or dust from leaking from the outside, and minimizing the space between the guide case and the bucket configured under the rotating shaft to eliminate the remaining amount of the object to be transported. It prevents the adhesive from sticking, and the rotation of the rotating shaft is composed of wear-resistant metal bearings to prevent loss or malfunction due to the objects to be transported, and the objects to be lubricated by the metal bearings. In addition, the weight of the weight of the guide case is automatically By making it stronger, it is possible to improve the function and reliability of the bucket elevator, it is easy to maintain the bucket elevator, there is an effect that provides the efficiency and convenience of work.

1 is a configuration diagram showing the structure of a conventional bucket elevator.
Figure 2 is a block diagram showing the structure of the remaining amount of automatic control device of the bucket elevator according to the present invention.
3 is an enlarged view of a portion “A” of FIG. 2.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the automatic control device remaining amount of the bucket elevator according to the present invention.

First, the automatic control device for the remaining amount of bucket elevator according to the present invention, when the rotational force transmitted from the motor or the like to the upper portion of the bucket elevator 1 is transmitted to the drive sprocket, the drive sprocket is the bucket elevator (1) through the chain (32) It is transmitted to the driven sprocket 21 installed in the lower case (4) of the.

Bucket 22 is mounted to the chain 32 at regular intervals. Guide case 31 for preventing the remaining amount of the object to be transported to the upper by the bucket 22 is installed below the rotating shaft (20). That is, the guide case 31 is installed from the outside of the driven sprocket 21 coupled to the rotation shaft 20 to the bottom. And the bucket 22 is installed to almost contact with the bottom surface of the guide case 31.

Furthermore, the bearing part F and the driven sprocket 21 including the rotating shaft 20 of the bucket elevator 1 are installed in a lower case 4 connected to the upper case 2.

The lower case 4 has a plurality of cases screwed together, the first support case 5 is screwed to the upper case and the lower case below the upper case 2, and the first connection case screwed to the first support case ( 6), a side case (3) screwed to the first connection case, a second connection case (7) screwed to the side case (3), and a second screw connection to the second connection case (7) The support case 12 and the bottom case 13 which is screwed to the second support case are sequentially connected to each other. The side case 3 is coupled between the first connection case 6 and the second connection case 7 is coupled to the butterfly nut 11 so that it can be easily assembled from the outside. Side case (3) is coupled to the structure that is easy to open and close for checking the state of the rotating shaft 20 or replacement or repair.

The lower case 4 is to maintain the airtight so that the rotating shaft 20 is not exposed to the outside to prevent entry of foreign matter or scattering dust and the like inside and outside.

The metal bearings 25 and 26 are fixedly coupled to both sides of the rotation shaft 20, and are divided into inner ring metal bearings 24 and outer ring metal bearings 25. The inner ring metal bearing 24 is tightly fixed to the rotating shaft 20, and the outer ring metal bearing 25 is in close contact with the inner ring metal bearing 24 to support the rotational force of the rotating shaft 20. Therefore, the inner ring metal bearing 24 fixed to the rotating shaft 20 performs support of the rotating shaft 20 by friction with the outer ring metal bearing 25 coupled to the bearing housing 23. The metal bearing is a highly wear-resistant material, even if the transport object flows in between the inner ring metal bearing 24 and the outer ring metal bearing 25, the transport object performs a lubrication role between the inner ring metal bearing 24 and the outer ring metal bearing 25. do. Therefore, the metal bearing can perform its function without losing even when the transport object is introduced.

The bearing housing 23 is coupled to the outer ring metal bearing 25 and is mounted between the outer ring metal bearing 25 and the driven sprocket 21. The bearing housing 23 is supported by the take-up screw 8 while preventing the inflow of the object to be transported in the lower case 4.

Take-up screw 8 is coupled to the bearing housing 23 to adjust the lifting position of the rotating shaft 20 and the guide case 31, the take-up screw (8) is supported on the first support case (5) It is installed through 10). And the support screw 10 is screwed to the adjustment screw (9) for fixing the take-up screw (8). That is, after loosening the adjusting screw 9 corresponding to the support 10 and adjusting the position of the take-up screw 8, the take-up screw 8 is again combined by adjusting the adjusting screw 9 with the support 10. ) Is fixed.

In addition, a sensor dog 29 is mounted at one end of the rotating shaft 20, and a predetermined volume of space is formed in the cover support member 26 fixed to the outer ring metal bearing 25 to form the sensor dog 29. A cover 27 for sealing is installed, and a sensor 28 for detecting rotation of the sensor dog 29 is fixedly installed inside the cover 27.

The sensor 28 detects the rotational speed of the rotational shaft 20 and detects the rotational speed below the set rotational speed so that a warning means can be activated so that the operator can recognize it. This is to indicate that the coupling of the driven sprocket 21 and the chain 32 is not properly made by the stretching of the chain 32 or the like. In addition, the sensor 28 and the sensor dog 29 is to detect whether the rotation shaft 20 is rotated to detect whether the chain is cut or the like.

On the other hand, the weight 30 of a certain weight is integrally coupled to the outer periphery of the guide case 31. The weight body 30 is designed such that the guide case 31 is lowered at the same time as the lowering of the rotation shaft 20, so that the minimum space between the bucket 22 and the bottom surface of the guide case 31 is reduced. It is intended to be formed in. The weight body 30 mounted on the guide case 31 always maintains a constant tension of the chain 32 due to the weight of the guide case 31 and the additional weight of the weight body 30.

As described above, the bucket elevator equipped with the automatic balance control device according to the present invention maintains a constant tension of the chain by its own weight of the weight body mounted on the guide case even when the chain of the bucket elevator occurs. It is designed to be continuously transported and designed to be built-in to block the entry of foreign substances or scattering dust. It is eco-friendly, and the function of adjusting the shaft and guide case together is possible even if the chain is extended by automatic adjustment of tension. Equipped with a smooth operation is possible, there is an advantage to improve the function and reliability of the bucket elevator by not leaving the remaining amount of the object to be transported in the guide case.

While the invention has been shown and described with respect to the specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who has it will know it easily.

1: bucket elevator 2: upper case
3: side case 4: lower case
5, 12: support case 6, 7: connection case
8: Take-up screw 9: Adjusting screw
10: support 11: nut
13: bottom case 20: rotating shaft
21: driven sprocket 22: bucket
23: bearing housing 24, 25: metal bearing
26: cover support member 27: cover
28: sensor 29: sensor dog
30: weight 31: guide case
32: chain

Claims (5)

Rotation driving force is transmitted to the driven sprocket 21 coupled to the rotating shaft 20 through the chain 32, the bucket 22 is mounted at a predetermined interval on the chain 32, a guide case for preventing the remaining amount of the object to be transported In the bucket elevator (1) installed below the rotating shaft (20),
An inner ring metal bearing 24 is fixedly coupled to both sides of the rotating shaft 20, and an outer ring metal bearing 25 is coupled to be in close contact with the outside of the inner ring metal bearing 24 to support the rotating shaft 20. F);
A bearing housing 23 coupled to the outer ring metal bearing 25 and mounted between the outer ring metal bearing 25 and the driven sprocket 21;
A take-up screw (8) coupled to the bearing housing (23) to adjust the lifting position of the rotating shaft (20) and the guide case (31);
A lower case 4 in which a plurality of cases are screwed under the upper case 2 accommodating the bucket elevator 1,
The bearing part F including the rotating shaft 20 and the driven sprocket 21 are installed in the lower case 4 connected to the upper case 2 in a built-in type.
Residual prevention automatic control device of the bucket elevator, characterized in that the weight body 30 of a predetermined weight is integrally coupled to the outer periphery of the guide case (31). According to claim 1, wherein the lower case (4) is a first support case (5) screwed with the upper case and the lower case 4, and the first connection case (6) screwed with the first support case And a side case 3 screwed to the first connection case, a second connection case 7 to be screwed to the side case 3, and a second support case screwed to the second connection case 7. (12), and the remaining amount of automatic adjustment of the bucket elevator, the bottom case 13 is screwed and the second support case is connected in sequence. The method of claim 2, wherein the first support case 5 is provided with a take-up screw 8 through the support 10, the adjustment screw for fixing the take-up screw 8 to the support 10 ( 9) Automatic adjustment of the remaining capacity of the bucket elevator with screw connection. The sensor dog 29 of claim 1, wherein a sensor dog 29 is mounted at one end of the rotation shaft 20, and a predetermined volume of space is formed in the cover support member 26 fixed to the outer ring metal bearing 25. Cover 29 is provided to seal the 29, the sensor 28 for detecting the rotation of the sensor dog 29, the automatic adjustment of the remaining amount prevention of the bucket elevator installed fixed inside the cover (27). delete

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