KR100588499B1 - A device for tension control of a chain - Google Patents

Abstract

When the chain is driven by a drive motor mounted on the driving and driven sprocket and proceeding in opposite directions, the radial direction of the rotational force of the upper and lower tension sprockets generated by the flow of the chain is generated. To automatically adjust the tension of the chain using the component force;

Screw length adjusting means constituting upper and lower female threads corresponding to each other on both sides; Upper and lower length adjusting screws mounted on the upper and lower female screws of the screw length adjusting means, respectively, the upper and lower length adjusting screws respectively forming male threads on the other end thereof; The male screw formed at each other end of the upper and lower length adjusting screws is rotatably mounted through the upper and lower clevis, respectively, and is engaged outward on the chain of two strands running in opposite directions by the driving and driven sprockets, respectively. Provides a chain tension adjusting device, characterized in that consisting of the upper, lower tension sprocket.

Chain, tensioning, sprocket

Description

Chain tension control device {A DEVICE FOR TENSION CONTROL OF A CHAIN}

1 is a side view of a chain tension adjusting device according to an embodiment of the present invention;

2 is an enlarged perspective view of a portion A of FIG. 1;

3 is a mounting state of the chain tension adjusting device according to an embodiment of the present invention,

4 is a view for explaining the principle of the force of the chain tension adjusting device according to an embodiment of the present invention,

5 is an operating state of the chain tension adjusting device according to an embodiment of the present invention,

6 is a perspective view of a chain drive system according to the prior art,

7 is a perspective view of a chain tension adjusting device according to the prior art.

The present invention relates to a chain tension control device of a chain unit for a conveyor, and more particularly, while the chain is driven by a drive motor, by using a radial component of the rotational force of the sprocket generated by the flow of the chain of the chain It relates to a chain tensioning device for automatically adjusting the tension.

In general, in the industrial field, various kinds of conveying systems are applied to convey work parts and products. Such conveying systems include a conveyor system using a chain drive, a rail bogie system moving along a rail, or a short-range shuttle. There is a shuttle system using.

In particular, the chain unit used to drive the conveyor apparatus, as shown in Figure 6, is provided with a drive motor 101 for generating a rotational driving force, the rotary shaft 103 of the drive motor 101 is a conveyor The driving sprocket 111 is connected to the driven sprocket 107 of the belt 105 via the chain 109.

Accordingly, the rotational driving force of the driving motor 101 is transmitted from the driving sprocket 111 to the driven sprocket 107 through the chain 109 to move the conveyed material 113 on the conveyor belt 105.

At this time, the chain 109 is composed of a unit chain block of a predetermined length, it is difficult to accurately calculate the total length of the exact distance between the drive and driven sprockets (111, 107).

Accordingly, in order to mount the chain 109 to the driving and driven sprockets 111 and 107, a small clearance is assembled thereafter, and as shown in FIG. 7, the chain tension adjusting bolt configured at one side of the lower end of the driving motor 101 ( 115 to increase the distance between the axes of the sprockets (111, 107) to adjust the tension of the chain (109).

However, when the chain is used for a long time, the tension of the chain is loosened again due to wear between the chain blocks, and in this case, in order to re-adjust the tension of the chain, the operator manually adjusts the bolt using the chain tension adjusting bolt. Afterwards, there are drawbacks such as the need to pay attention to tension control through periodic checks.

Therefore, the present invention has been invented to overcome the above-mentioned disadvantages, and an object of the present invention is to be installed on a drive and driven sprocket and mounted on a chain of two strands running in opposite directions with each other by a drive motor. When driven, it is to provide a chain tension adjusting device for automatically adjusting the tension of the chain by using the radial component of the rotation force of the upper and lower tension sprocket generated by the chain flow.

The present invention for achieving the above object in the chain tension adjusting device,

Screw length adjusting means constituting upper and lower female threads corresponding to each other on both sides; Upper and lower length adjusting screws mounted on the upper and lower female screws of the screw length adjusting means, respectively, the upper and lower length adjusting screws respectively forming male threads on the other end thereof; The male screw formed at each other end of the upper and lower length adjusting screws is rotatably mounted through the upper and lower clevis, respectively, and is engaged outward on the chain of two strands running in opposite directions by the driving and driven sprockets, respectively. It characterized in that the upper and lower tension made of a sprocket.

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

1 is a side view of the chain tension adjusting device according to an embodiment of the present invention, FIG. 2 is an enlarged perspective view of part A of FIG. 1, and FIG. 3 is a mounting state diagram of the chain tension adjusting device according to an embodiment of the present invention. As shown in FIG. 3, the chain tension adjusting device of the chain tension control device includes a drive motor 1 for generating a rotational driving force for driving the conveyor device, and the conveyor shaft 3 of the drive motor 1 is provided with a conveyor belt. One side of the driven sprocket (7) and the drive unit sprocket (11) connected through the chain (9) is applied to the chain unit formed by mounting the tension of the chain (9) automatically.

Specific configuration of the chain tension adjusting device 10 according to the embodiment of the present invention, as shown in Figure 1, the screw length adjustment to configure the upper female screw 21 and the lower female screw 23 respectively corresponding to each side It is mounted to the means 20 and the upper and lower female threads 21 and 23 of the screw length adjusting means 20 through male threads 31 and 41 formed at one end, respectively, and the other threads 33 and 43 respectively. The upper and lower length adjusting screw 30 and the lower length adjusting screw 40, and the external thread 33 and 43 formed at the other end of the upper and lower length adjusting screws 30 and 40, respectively, to form a top and bottom, respectively. It is rotatably mounted through the clevises 50 and 60 and engaged outwardly on the two strands of chains 9, respectively, running in opposite directions by the drive sprocket 11 and the driven sprocket 7 of the chain unit. Consisting of an upper tension sprocket 51 and a lower tension sprocket 61 All.

That is, the screw length adjusting means 20 is a female screw formed on the square block having the hollow portion 25 so that the upper and lower female threads 21 and 23 correspond to each other with the hollow portion 25 therebetween. It is formed of blocks 27.

The upper and lower female threads 21 and 23 formed on the female thread block 27 are formed in opposite directions to each other in the spiral directions of the threads formed on the female thread blocks 27 and 23.

In the present embodiment, the upper female screw 21 is formed in the left helix direction, the lower female screw 23 is formed in the right helix direction.

Accordingly, the male threads 31, 33 and 41, 43 formed at both ends of the upper and lower length adjusting screws 30 and 40 also have the male threads 31 and 33 formed at both ends of the upper length adjusting screw 30, respectively. ) Are in the left helical direction, and the male threads 41 and 43 formed at both ends of the lower length adjusting screw 40 are formed in the opposite direction to the threads in the right helical direction.

The upper and lower clevis (50, 60), as shown in Figure 2, the female screw on each side to fasten the male screw (33, 43) formed at each other end of the upper and lower length adjustment screw (30, 40) 53 and 63, and both ends thereof are rotatably mounted to support the rotation shafts 55 and 65 of the upper and lower tension sprockets 51 and 61.

Here, each of the female threads 53 and 63 of the upper and lower clevises 50 and 60 also has an upper clevis (like the spiral direction of the thread formed on each of the upper and lower length adjusting screws 30 and 40). The female screw 53 of 50 is formed in the left helical direction, and the female screw 63 of the lower clevis 60 is formed with the opposite threads in the right helical direction.

Therefore, the operation of the chain tensioning device having the configuration as described above will be described.

As shown in FIG. 3, first, as shown in FIG. 2, in the chain of one strand with respect to the chain of two strands 9 installed in the driving and driven sprockets 11 and 7 and running in opposite directions, the chain described above is illustrated in FIG. 2. It is disposed between the upper tension sprocket 51 and the upper clevis 50 of the tension control device 10, and the other strand chain is placed between the lower tension sprocket 61 and the lower clevis 60 The upper and lower tension sprockets 51 and 61 are engaged on the outside on each chain 9.

When the chain 9 is driven by the drive motor 1 in this state, the upper and lower tension sprockets 51 and 61 rotate due to the flow of the chain 9 in the traveling direction. And rotation of the lower tension sprockets 51 and 61 generates a tangential force, that is, rotational force F, to each of the upper and lower tension sprockets 51 and 61, as shown in FIG. A radial force (Fr) in the radial direction with respect to is generated toward each of the chains 9. Accordingly, the upper and lower tension sprockets (51, 61), as shown in Figure 5, is pushed inwardly the chain of two strands (9) parallel to each other based on the female thread block 27 in the center.

Here, the force (2Fr) that the upper and lower tension sprockets (51, 61) pushes inwardly the two strands of chain (9) is the radial component force (Fr) of the upper and lower tension sprockets (51, 61) ), The radial component force (Fr) is proportional to the rotational force (F) of the upper and lower tension sprockets (51, 61), as shown in Equation 1, thereby increasing the speed of the chain (9). As the lowering force increases the rotational force (F) of the upper and lower tension sprockets (51, 61), and accordingly the radial component force (Fr) also increases so that each upper and lower tension sprocket (51, 61) with a greater force, The two strands of the chain 9 are pushed inwards, thereby stably adjusting the tension control automatically.

According to the chain tension adjusting device of the present invention having the configuration as described above, when the chain is driven by a drive motor mounted on a chain of two strands installed in the driving and driven sprockets running in opposite directions, the chain flows. The tension of the chain is automatically adjusted by using radial force on the rotational force of the upper and lower tension sprockets generated by the chain, and the tension of the chain is automatically adjusted by wear between the chain blocks for a long time. In order to re-adjust the tension of the chain, the operator can manually adjust by using the chain tension adjusting bolt, etc., there is an effect such as to eliminate the inconvenience.

Claims (6)

Screw length adjusting means constituting upper and lower female threads corresponding to each other on both sides; Upper and lower length adjusting screws mounted on the upper and lower female screws of the screw length adjusting means, respectively, the upper and lower length adjusting screws respectively forming male threads on the other end thereof; The male screw formed at each other end of the upper and lower length adjusting screws is rotatably mounted through the upper and lower clevis, respectively, and is engaged outward on the chain of two strands running in opposite directions by the driving and driven sprockets, respectively. In the chain tension adjusting device consisting of upper and lower tension sprockets, The screw length adjusting means is formed of a female thread block formed on the hollow rectangular block with the upper and lower female threads corresponding to each other with the hollow portion therebetween, and the upper and lower female threads being formed in the spiral direction of the thread formed at each of them. Are formed in opposite directions, Male threads formed at both ends of the upper and lower length adjusting screws are formed in the same spiral direction, and male threads of both ends formed at the lower length adjusting screw with respect to male threads at both ends formed at the upper length adjusting screw are in the helical direction thereof. Formed in opposite directions, The upper and lower clevis is configured with female screws on one side to fasten male threads formed at the other ends of the upper and lower length adjusting screws, and both ends thereof are rotatably mounted to support the rotating shafts of the upper and lower tension sprockets. And each female screw of the upper and lower clevises has a spiral direction of a thread formed on each of the female threads formed in opposite directions. delete delete delete delete delete

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