KR100991461B1 - Roller of carrier roller stand for preventing the conveyor belt from meandering - Google Patents

Abstract

       The present invention relates to a carrier roller stand which prevents meandering of the belt,

More particularly, the present invention relates to a carrier roller stand in which a roller is pivoted by rotating a stand for supporting a belt of a belt conveyor for transporting ore and coke, which are materials of pig iron, in an iron and steel mill. To this end, the stand is composed of a guide roller and the pipe supporting the stand, and a pivot unit rotatable on the pipe and the pivot unit and the stand through the fixing device to configure the stand to be pivoted by the pivot unit It relates to a carrier roller stand which prevents meandering of the belt, characterized in that the belt is configured to be corrected by the pivoting action of the roller when meandering on the roller.

Carrier roller stand

Description

Roller of carrier roller stand for preventing the conveyor belt from meandering}

The present invention relates to a carrier roller stand which prevents meandering of the belt,
More particularly, the present invention relates to a carrier roller stand which prevents the belt from meandering by turning the stand supporting the belt of the belt conveyor for transporting ore and coke, which are materials of pig iron, in the steel mill.

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In the blast furnace operation where the ore and coke are put on the top of a cylindrical blast furnace of a certain height in the steel mill and the molten pig iron is collected from the bottom, the transport of ore and coke, which is the material of the iron, to the blast furnace and the yard is used by a normal belt conveyor. do.
The ore and coke used as materials in the blast furnace operation are heavy, so that a heavy load is generated during the orbital conveyance process of the belt, and the belt also has a high self load to support such a load and to transfer the material to the lower part of the belt. The idler (carrier roller stand).
The carrier roller stand is mounted on a stand installed in the frame, and inclined to both sides of the center horizontally arranged carrier roller so that the belt is shaped in a 'U' shape in order to prevent falling and scattering of the transported object. It is configured by placing.
In the belt conveyor through such a carrier roller stand, the belt is turning meandering and turning away from the center, which is called meandering phenomenon, which mainly occurs when the type of package and the loaded form of the package are abnormal, If this is not corrected, the same phenomenon is repeated on the return trajectory.
This meandering phenomenon causes the fall of the package, and at the same time, the belt edges of the meandering side of the belt collide with the equipment such as the stand and cause the belt to be broken and the equipment to be damaged.
If this meandering phenomenon is repeated repeatedly, the belt will be inoperable due to meandering of the belt or the equipment will be damaged and the equipment will be damaged. There are disadvantages in that work loss and economic loss occur.
In order to prevent this drawback, in recent years, technologies for preventing the meandering of belts have been developed. Among them, registration room 20-0352834 is a meandering prevention device which is installed so that the other end is pivotable from one side across the conveyor belt transversely. Rollers, sensing means installed on both sides of the conveyor belt to detect the raw material loaded on the conveyor belt when the conveyor belt is biased to one side, and a control unit for converting the signal sent from the sensing means into a control signal to output And, the drive unit for adjusting the meandering of the conveyor belt by moving the meandering prevention roller in the longitudinal direction of the conveyor belt in accordance with the signal output from the control unit, and the upper surface is bent in the lower portion of the meandering prevention roller to prevent meandering This publication describes a technology consisting of a guide rail that accommodates the other end of the roller. It can control.

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The registration room 20-0352834 has the effect of detecting the meandering of the belt by the sensing means to correct through the driving unit, but the cost of the equipment such as the sensing means, the control unit, and the driving unit is excessively consumed, and thus the maintenance and repair are difficult. There have been disadvantages.

In order to eliminate the above conventional problems,
A stand made up of a central stand 10 protruding on the pipe 50 so as to support the roller and horizontally configured at the center and a side stand 20 formed at an angle at both sides with the roller at an angle, and the The roller is composed of a central roller 30 and a side roller 40, which is supported by a stand, and is configured to transfer a belt (not shown) to transfer raw materials such as iron ore and coke, and an upper end of the roller. In the carrier roller stand consisting of a belt 200 capable of transporting the goods by rotation, a pipe 50 configured to support the load of the stand and the roller, and a frame 60 supporting it, the side The lower portion of the stand 20 constitutes the connecting portion 70 formed with the groove portion 70a, and the groove portion 80a coinciding with the groove portion 70a of the connecting portion 70 constitutes the fixed portion 90. The gold is fastened to each other, and the lower portion constitutes a fixed plate integrally formed with the pivot shaft portion 100 of the pivot unit, and penetrates the groove portion 70a of the connecting portion 70 and the groove portion 80a of the fixing plate 80. And a meandering of the belt consisting of a pivot unit configured to be fixed to the pipe 90 and fastened to the pipe, which is integrally formed with the fixed plate to the upper side and is rotated to pivot the side stand on the pipe. Provide a carrier roller stand that is prevented.
The pivot unit includes a pivot shaft part 100 connected to the fixing plate 80, a pivot bearing 110 supporting the pivot shaft part 100, and a pivot housing 120 fixing the pivot bearing 110. It includes being.
It includes configured to adjust the angle of the side stand 20 is configured by forming a catch 130 to be caught on the pipe 50 when turning by the pivot means to both sides of the fixing plate (80).
The protrusion 140 may be configured in the direction of the pipe 50 inside the hanger 130 to be caught by the pipe 50 toward the tip side of the protrusion 140 when the side stand is pivoted.

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The present invention relates to a carrier roller stand for easy roller replacement,
According to the present invention, the side stand of which the side rollers are configured is transported on the pipe by the pivot unit when the heavy material is transported by the belt, thereby preventing meandering of the belt.
In addition, the pivot unit and the component that can fix the side stand to prevent the meandering of the belt is simply configured to increase the practicality will be a great invention.

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The present invention relates to a carrier roller stand which prevents meandering of the belt,
More particularly, the present invention relates to a carrier roller stand in which a roller is pivoted by rotating a stand for supporting a belt of a belt conveyor for transporting ore and coke, which are materials of pig iron, in an iron and steel mill. To this end, the stand is composed of a guide roller and the pipe supporting the stand, and a pivot unit rotatable on the pipe and the pivot unit and the stand through the fixing device to configure the stand to be pivoted by the pivot unit It relates to a carrier roller stand which prevents meandering of the belt, characterized in that the belt is configured to be corrected by the pivoting action of the roller when meandering on the roller.

1 is a front view showing a preferred form of the carrier stand roller according to the present invention, Figure 2 is an exemplary view showing a preferred form of the pivot unit and the fixing plate according to the present invention, Figure 3 is a preferred form of the configuration device according to the present invention Figure 4 is a partial cross-sectional view, Figure 4 is a front view showing a preferred form in which the guide roller is pivoted by the pivot axis according to the invention, Figure 5 is an embodiment of a preferred embodiment in which the projection angle of the locking projection is adjusted according to the present invention 6 is an exemplary view showing a form in which the meandering force of the belt is corrected by generating a synthetic force according to the present invention, and FIG. 7 is an exemplary view showing a form in which the roller stand of the present invention is configured in a conventional belt conveyor. 8 is an exemplary view showing a form in which a conventional belt is meandered, the present invention with reference to the drawings In more detail, the specific content for the implementation of,
Carrier roller stand according to the present invention based on the bar shown in Figure 1 is largely supported by the roller, the roller supported by the stand to drive the belt 200, the pipe 50 for supporting the stand, The belt 200 which carries a load by a roller, and the pivot unit which pivots the said stand, and the fixed plate 80 which fixes a stand and a pivot unit are comprised mainly.
The stand is typically protruded on the pipe 50 so as to support the roller, and the side stand 20 so that the roller can be configured at an angle to the center stand 10 and both sides are horizontally configured at the center. 2) and the side stand 20 according to the present invention, as shown in FIGS. 2 and 3; as shown in FIGS. 2 and 3, the connection part 70 having the groove part 70a formed at one side thereof is fixed to the groove part 70a. The side stand 20 can be pivoted by the rotation of the pivot unit configured in the fixing plate 80 by fastening and fixing the fixing unit 90 in a state coinciding with the groove portion 80a.
The roller is configured to transport raw materials such as iron ore, coke, etc. by rubbing and transporting the belt 200, the central roller 30 is configured in the central stand 10 to support the central portion of the belt 200 in parallel And a pair of side rollers 40 configured on the side stand 20 to support a trough angle at both ends of the belt 200 to prevent falling and scattering of the package. It is preferable that the form of the belt is U-shaped by the 40.
In addition, the center roller 30 is located in the lower center of the center between the pair of side rollers 40 located on both sides, but according to the traveling direction of the belt located at the top of the raw material constituted in the center of the belt It is configured to safely support the load and is configured to prevent damage to the belt.
In addition, the side roller 40 is configured in a tapered shape that gradually decreases in diameter in the outward direction so that the cross-sectional diameter of the inner side of the side roller 40 is changed when the belt 200 seated on the roller moves. Since the angular velocity of the inner side roller 40 is increased because it is wider than the cross-sectional diameter of the outer side, the belt 200 is configured to move inward with a large angular velocity to correct meandering.
The pipe 50 is configured to support the load of the stand and the roller 20.
The pipe 50 is configured to be supported by the frame 60.
2, 3, and 4, the pivot unit is configured to be connected to the fixing plate 80 connected to the lower connection portion 70 of the side stand 40 at the upper side to pivot the fixing plate 80 to the side stand 20. Pivot pivot portion 100 connected to the fixed plate 80, the pivot bearing 110 for supporting the pivot shaft portion 100, and the pivot housing for fixing the pivot bearing 110. It consists of 120, it is configured to be arranged in the vertical vertical direction of the pipe 50.
The fixing plate 80 is provided with a groove portion 80a that is matched with the groove portion 70a of the connection portion 70 of the side stand 20 to allow the fixing portion 90 to be fastened to each other, and to a lower portion of the pivot unit. The pivot shaft unit 100 is integrally configured to pivot the connecting unit 60 connected to the groove 80a by the rotation of the pivot unit so that the side stand 20 is finally pivoted.
As shown in FIG. 5, the side stand 20 may be configured to adjust an angle at which the side stand 20 is pivoted by configuring a latch 130 that is caught by the pipe 50 when the pivoting means pivots to both sides of the fixing plate 80. It is configured to minimize the wear of the hanger 130 by configuring the protrusion 140 in the direction of the pipe 50 in the inner side of the hanger 130 to be caught by the pipe 50 toward the tip side of the protrusion 140. More preferably.
The protrusion 140 is more preferably configured by combining the bolt and the nut.

The embodiment of the present invention will be described in more detail through the above-described configuration device.
First, in the form of a carrier roller stand according to the present invention, the belt 200 is transported according to the rotation of the driving roller (not shown), and roller stands are configured between the belts 200 to feed raw materials according to the blast furnace operation through the belt. Will be transported.
As shown in FIG. 8, the raw material introduced into the belt 200 through the chute is always introduced into the center of the belt 200, but is biased toward either side of the belt 200 by the weight and work type according to the type of raw material. The transfer may be carried out by stacking with.
As such, when the belt 200 is biased to one side by the weight of the raw material, the belt 200 rotates in the conveying direction of the pivot shaft portion 100 on the side stand 20 side which is biased by the friction force between the belt 200 and the rollers and pivots. As the shaft part 100 is rotated, the fixing plate 80 and the connection part 70 under the side stand 20 are pivoted, and finally the side stand 20 is pivoted in the belt conveying direction.
In addition, the pivot shaft portion 100 on the side of the side stand 20 on the opposite side is rotated in a direction opposite to the conveyance of the belt 200 so that the bilateral side roller 40 is inclined with the center roller 10 interposed therebetween. Each is configured.
Accordingly, the side roller 40 is rotated by the belt 200 in contact with the upper side, and as shown in FIG. 6 in the inclined state, the conveyance of the belt is made in the A direction, but due to the tapered shape of the roller, The belt is moved to the inner direction of the roller with high linear velocity, i.e., the B direction, so that the belt is finally moved and shifted to the C direction where synthetic force is generated by the conveying force of the belt and the linear force of the roller. Is moved back to the center and the belt 200 is also moved to the center by the weight of the raw material is prevented from meandering is to run in the normal state.
In addition, when the side stand 20 by the pivot shaft part 100 is swiveled excessively by a predetermined angle or more when turning, the protrusion 140 configured on the hook 130 may be caught by the pipe 50 to limit the turning angle. It is configured to be.
Therefore, as shown in Figure 7 when installing a plurality of idlers (carrier roller stand) in the lower portion of the belt conveyor in general, the carrier roller stand of the present invention continuously configured to be spaced apart a certain length so that the meandering of the belt It is composed.

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1 is a front view showing a preferred form of a carrier stand roller according to the present invention.
Figure 2 is an exemplary view showing a preferred form of the pivot unit and the fixed plate according to the present invention
3 is a partial cross-sectional view showing a preferred form of the configuration device according to the present invention.
4 is a front view showing a preferred form in which the guide roller is pivoted by a pivot axis according to the present invention.
5 is an exemplary view showing an example of a preferred embodiment in which the turning angle is adjusted by the protrusion of the hanger according to the present invention;
Figure 6 is an exemplary view showing a form in which the synthetic force is generated according to the present invention to correct the meandering of the belt
7 is an exemplary view showing a configuration in which the roller stand of the present invention is configured in a conventional belt conveyor.
8 is an exemplary view showing a form in which a conventional belt meanders.
Explanation of the major symbols used in the main part of the drawing
10: center stand 20: side stand
30: center roller 40: side roller
50: pipe 60: frame
70: connection portion 80: fixed plate
90: fixed part 100: pivot axis part
110: pivot bearing 120: pivot housing
130: hanger 140: protrusion
200: belt

Claims (5)

A stand made up of a central stand 10 protruding on the pipe 50 so as to support the roller and horizontally configured at the center and a side stand 20 formed at an angle at both sides with the roller at an angle, and the The roller is composed of a central roller 30 and a side roller 40, which is supported by a stand, and is configured to transfer a belt (not shown) to transfer raw materials such as iron ore and coke, and an upper end of the roller. In the carrier roller stand consisting of a belt 200 capable of transporting the goods by rotation, a pipe 50 configured to support the load of the stand and the roller, and a frame 60 supporting the same, The side roller 40 is configured in a tapered form that the diameter gradually decreases in the outward direction, The lower portion of the side stand 20 constitutes the connection portion 70 is formed with a groove portion (70a), The groove portion 80a corresponding to the groove portion 70a of the connection portion 70 is configured to allow the fixing portion 90 to be fastened to each other, and the fixing plate is integrally formed with the pivot shaft portion 100 of the pivot unit. Configure Comprising a fixing portion 90 that can be fastened through the groove portion 70a of the connecting portion 70 and the groove portion 80a of the fixing plate 80, It is arranged in the pipe, but consists of a pivot unit configured to be rotated to the side stand is formed on the pipe integrally with the fixed plate upwards, The center roller 30 is located in the lower center of the center between the pair of side rollers 40 located on both sides, but before and after each according to the direction of movement of the belt located on the top of the raw material constituted in the center of the belt Configured to support the load, The pivot unit includes a pivot shaft part 100 connected to the fixing plate 80, a pivot bearing 110 supporting the pivot shaft part 100, and a pivot housing 120 fixing the pivot bearing 110. , It is configured to adjust the angle that the side stand 20 is pivoted by configuring the catch 130 to be caught on the pipe 50 when turning by the pivot means to both sides of the fixing plate 80, It is easy to replace the roller comprising a protrusion 140 configured in the direction of the pipe 50 in the inner side of the hanger 130 to be caught by the pipe 50 toward the tip side of the protrusion 140 when the side stand is swiveled. One carrier roller stand delete delete delete delete

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