KR20090119327A - Automatic tension-adjustable device for chain and belt - Google Patents

Abstract

PURPOSE: An automatic tension control device of a chain and a belt is provided to improve reliability by freely changing the elasticity of a spring by controlling the fastening quantity of a nut. CONSTITUTION: A sprocket(41) is engaged with the center of a fixing block(4) in an inner or outer part of a strain and relaxation part of a chain or belt. A pair of bolt sliding shafts(5) are fixed in both ends of the sprocket. A tension control nut(8) is combined in the bolt sliding shaft. A sprocket(61) is supported in the center of a sliding block(6). The sliding block is moved in the bolt sliding shaft. A pair of coil springs(7) are inserted to the bolt sliding shaft. A coil spring maintains the optimum state of the tension of the chain or belt regardless of the rotation direction of a driving shaft. The tension control nut controls the basic tension of the chain or belt by changing the elasticity of the coil spring.

Description

Automatic tension-adjustable device for chain and belt

The present invention relates to an automatic tension adjusting device for chains and belts, and more particularly, it is possible to automatically apply tension to the chains and belts of the power transmission unit in which tension and relaxation are repeatedly generated. The adjustment amount can be arbitrarily adjusted by changing the tightening amount of the nut without adjusting the other mechanism, and is also invented so that it can be simply combined with any position of the inner or outer surface of the chain and belt.

In general, a chain or a belt is typically used among the power transmission means used to transmit the rotational power generated from the power source to the spaced position.

The power transmission system includes a drive shaft that generates a driving force, a driven shaft installed at a distance from the drive shaft, and a chain or a belt installed to interconnect the drive shaft and the driven shaft. .

By the way, the chain or belt used to transfer the power generated from the power source, the sides opposite to each other in accordance with the rotation direction of the drive shaft repeats the tension and relaxation state, the longer than the initial installation length in the long-term use, or tension and In some cases, it may be assembled to extend the installation length in consideration of relaxation.

In this case, a separate tension control device may be added to maintain a proper tension on the chain or belt, and a lot of tension control devices have been developed and released as products for efficient tension control.

(A) and (b) of FIG. 1 show a general power transmission system without a tension control device. In the absence of the tension control device, the drive shaft according to the rotational direction of the drive shaft 1 having the sprocket 11 is shown in FIG. (1) and the chain or belt (3) connected to the driven shaft (2) through the sprocket (21) shows a state in which tension and relaxation are repeated.

In the power transmission system having such a configuration, the rotation direction of the drive shaft 1 is changed from the counterclockwise direction as shown in FIG. 1 (a) to the clockwise direction as shown in FIG. 1 (b), or vice versa from the clockwise direction to the counterclockwise direction. In case of change to, the side which had previously relaxed state is changed to tension state, so it may not be accurate power transmission and difference of position or time may occur. Also, various noise is generated as well as radical power transmission change. This causes problems such as shortening the life of the chain or the belt itself.

Therefore, in the related art, a separate tension control device may be added to maintain a proper tension on the chain or belt, and a lot of tension control devices have been developed and released as products for efficient tension control. .

FIG. 2 (a) shows an example in which a tension adjusting sprocket or idle roller 10 is installed on the outside of a portion having a relaxed state in a chain or a belt of the conventional tension adjusting device, and FIG. 2 (b) shows a chain or An example of a tension adjusting device having a configuration in which an uneven piece is installed on an outer circumferential surface of a ring is provided in the belt.

In the latter case, since the uneven piece 92 is provided on the outer circumferential surface of the flexible ring 91 having elastic force itself and is detachably installed between the chain or the belt 3, the chain or the belt 3 is driven. It deforms itself regardless of the direction and gives a constant tension to the chain and the belt itself.

However, in the case of the external tension control device, which is the former of the tension control devices, when the rotational direction of the drive shaft is changed, the chain or belt portion, which had previously been relaxed in tension, forms a tension state in response to the rotational direction change of the drive shaft. Therefore, the external tension control device is installed on the side of the chain or belt in which the tension state is formed, so that there is a problem that excessive tension is added to the tension state, and thus it is difficult to apply the power transmission system in which the rotation direction is changed from time to time.

In the latter case, since the uneven piece 92 is installed on the outer circumferential surface of the flexible ring 91 having its own elastic force and is detachably installed in the expanded form between the chain or the belt 3, the chain or Regardless of the direction in which the belt 3 is driven, it deforms itself and gives a constant tension to the chain and the belt itself, while a part of the chain or the belt on which the tension adjusting device is installed protrudes outward to both sides. Since there is a possibility to cause a constraint according to the utilization of the surrounding space.

The present invention has been made to solve such a conventional problem, it is possible to automatically give a constant tension of the chain and belt of the power transmission unit irrespective of the variation of tension and relaxation, if necessary, the amount of adjustment of the chain and belt tension It can be freely changed by adjusting the elastic force of the spring by changing the tightening amount of the nut without adjusting other mechanisms.In addition, the inner or outer surface of the chain and belt in accordance with the size of the space where the power transmission system is installed It is an object of the present invention to provide an automatic tension control device for chains and belts that can be used by simply and selectively engaging in any one of the positions.

The apparatus of the present invention for achieving the above object is a chain or belt portion of the chain or belt which is provided between the drive shaft and the driven shaft provided with the sprocket respectively, or is provided in the outer or inner side of the chain or belt in a relaxed state corresponding to the rotational direction of the drive shaft. In constructing an automatic tension control device for chains and belts that automatically adjust tension,

A fixed block having a sprocket engaged with the inner side or the outer side of the chain or the belt at the center thereof and having a pair of sliding shafts fixed at both ends thereof; A pair of bolt-type sliding shafts having one end fixed in a vertical direction at both ends of the fixing block; Sprockets are engaged at the inner or outer side of the chain or belt in the center and the guide holes drilled at both ends have a form in which the bolt-type sliding shaft is fitted and slidingly move in the bolt-type sliding shaft in response to the gap between the chain or the belt. A sliding block; A bolt-type sliding shaft is fitted between the fixed block and the opposing surface of the sliding block or the bolt between the outer surface of the sliding block and the tension adjusting nut corresponding to the engagement position of the sprockets coupled to the inner or outer side of the chain or belt. A pair of coil springs installed in the form of a sliding shaft, and exerting an elastic force so that the tension of the chain or the belt is maintained in an optimal state irrespective of the rotational direction of the drive shaft; And a pair of tension adjusting nuts which are screwed to the pair of bolt-type sliding shaft ends to adjust the tension of the chain or the belt by changing the elastic force of the coil spring that changes in response to the tightening amount thereof. It features.

At this time, the fixed block or the sliding block is characterized in that the flat section is molded to have a "ㅗ" shape.

As described above, according to the device of the present invention, the power transmission system can be selectively combined with any one of the inner and outer surfaces of the chain and the belt to correspond to the space size of the position where the power transmission system is installed. It is easy and can utilize the surrounding space smoothly, and it can automatically give the chain and belt tension of the power transmission part constantly regardless of the fluctuation of tension and relaxation, and if necessary, the amount of adjustment of the chain and belt tension can be adjusted without adjusting other mechanisms. It is a very useful invention that can be freely changed through a method of arbitrarily adjusting the elastic force of the spring through the change in the amount of tightening, greatly improving the usability and reliability of the product itself.

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

Figure 3 shows an exploded perspective view according to an embodiment of the present invention, Figure 4 shows a perspective view of the bonded state according to an embodiment of the present invention, Figures 5 (a)-(c) of the present invention One embodiment of the device is a schematic plan view showing a state in which the operation is coupled to the outside of the chain or belt.

6 is a perspective view showing a coupled state according to another embodiment of the present invention, Figure 7 is a plan view showing a state in which another embodiment of the present invention coupled to the chain or belt.

According to this, the apparatus of the present invention is installed outside or inside the chain or belt 3 provided between the drive shaft 1 and the driven shaft 2 each having the sprockets 11 and 21 to rotate the drive shaft 1. In constructing the automatic tension adjusting device of the chain and the belt that automatically adjusts the tension of one side of the chain or belt (3) having a relaxed state in response to the direction,

A fixed block (4) having a sprocket (41) engaged in tension or a loosening portion inside or outside of the chain or belt (3) at the center thereof and having a pair of sliding shafts (5) fixedly installed at both ends thereof;

A pair of bolt-type sliding shafts 5 having one end fixed in a vertical direction at both ends of the fixing block 4 and a tension adjusting nut 8 coupled to the other end;

In the center, the sprocket 61 engaged with the tension and the relaxation part of the chain or the belt 3 inward or outward is axially accumulated, and the bolt-shaped sliding shaft 5 is fitted in the guide hole 62 bored at both ends thereof. Or a sliding block 6 which is slidably moved in the bolt-type sliding shaft 5 in response to the tension and loosening part gap of the belt 3;

Bolting between the opposing surface of the fixed block 4 and the sliding block 6 in response to the engagement position of the sprockets 41, 61 coupled to the tension and loosening portion inside or outside the chain or belt (3) It is fitted to the sliding shaft (5) or installed between the outer surface of the sliding block (6) and the tension adjusting nut (8) in the form of a bolt-shaped sliding shaft (5) regardless of the rotational direction of the drive shaft (1) A pair of coil springs 7 which exert an elastic force so that the tension of the chain or belt 3 is maintained in an optimum state;

To adjust the basic tension of the chain or belt (3) by changing the elastic force of the coil spring (7) that is screwed to the end of the pair of bolt-shaped sliding shaft (5) changes in response to the tightening amount thereof And a pair of tension adjusting nuts (8).

At this time, the fixed block 4 or the sliding block 6 is characterized in that the flat section is molded to have a "ㅗ" shape.

Referring to the effects of the present invention configured as described above are as follows.

First, the chain and belt automatic tensioning device of the present invention includes a pair of bolt-type sliding shafts 5 including a fixed block 4 and a sliding block 6 each having sprockets 41 and 61, respectively. And a chain or belt (3), which is composed of a coil spring (7) and a tension adjusting nut (8) to connect the sprockets (11) and (21) of the drive shaft (1) and the driven shaft (2). Removably installed on the inner or outer side of the tension and the loosening portion of the tension can be automatically given a constant tension of the chain or belt (3) irrespective of the change in the tension and the loosening portion that changes in response to the rotation direction of the drive shaft (1). One of the main technical components is to

At this time, the fixing block (4) has a flat cross-section "ㅗ" shape and the sprocket 41 is engaged on one side of the protrusion formed in the center of the tension or loosening portion of the chain or belt (3), Both ends have a structure in which a pair of sliding shafts 5 one end is fixedly installed.

In addition, the sliding shaft 5 has a bolt shape with a screw thread formed at a free end thereof, and one end portion is fixedly installed in a vertical direction at both ends of the fixing block 4, and a tension adjusting nut 8 is provided at a thread of the other end thereof. Has a configuration that is installed in combination.

In addition, the sliding block 6 has a "ㅗ" shape with a flat cross section similar to the fixed block 4, and on one surface of the protrusion formed to protrude long from the center, the tension and the relaxation part of the chain or the belt 3 are inward or outward. The interlocking sprocket 61 is axially formed and has a configuration in which the bolt-shaped sliding shaft 5 is inserted to be freely movable in the guide hole 62 bored at both ends, and the tension and the loosening portion of the chain or belt 3. It slides on the bolted sliding shaft 5 in response to the gap (i.e. width) and has a function of automatically adjusting the distance to the fixing block 4.

The coil spring 7 corresponds to the coupling position of the sprockets 41 and 61 coupled to either the inner side or the outer side of the tension and relaxation portion of the chain or belt 3, and the fixing block 4 And the bolt-like sliding shaft 5 as shown in FIG. 6 between the opposite surface of the sliding block 6, or between the outer surface of the sliding block 6 and the tension adjusting nut 8 as shown in FIG. It is installed in the form of being fitted to the sliding shaft (5) performs a function to exert an elastic force so that the tension of the chain or belt (3) to maintain an optimal state irrespective of the rotational direction of the drive shaft (1).

In addition, the tension adjusting nut 8 is screwed to the end of the pair of bolt-type sliding shaft 5 to change the elastic force of the coil spring 7 that changes in response to its tightening amount adjusted by the user. Through this function to be able to adjust the basic tension of the chain or belt (3).

On the other hand, the embodiment of the present invention is divided into the case of being installed on the outside of the tension and relaxation portion in the chain or belt 3 of the power transmission system as described above, and the case installed on the inside.

In the above, the apparatus of the present invention, which is installed on the outside of a portion where tension and relaxation of the chain or belt 3 is made, is shown in (a)-(c) of FIGS. Screwed to the outer surface of the sliding block 6 and the other end of the bolt-shaped sliding shaft (5) which is slidably inserted into the bolt-shaped sliding shaft (5) having one end fixed at right angles in a direction perpendicular to both ends of the The coil spring 7 is provided between the tension adjusting nuts 8.

That is, the coil spring 7 has a state in which elastic force is generated in the direction in which the sliding block 6 is pushed toward the fixed block 4 in the state where the coil spring 7 is fitted to the bolt-type sliding shaft 5.

Therefore, when the chain and belt automatic tension control device of the present invention having such a configuration is to be installed and used in the chain or belt of the power transmission system, as shown in (a)-(c) of FIG. (4) and the sprockets (41) (61) arranged on the sliding block (6) are engaged so as to engage with each other on the outside of the chain or belt (3) of the tension and relaxation portions respectively, and at the same time tension adjusting nut (8) Tighten or loosen as appropriate to adjust the tension of the chain or belt (3) to have the desired tension.

As described above, when the driving shaft 1 is rotated clockwise as shown in FIG. 5A, for example, in a state in which an embodiment of the present invention is installed outside the chain or belt 3 in which tension and relaxation are performed, The upper part of the upper chain or belt 3 is tensioned and the lower part is relaxed, while the sliding block 6 of the device of the present invention responds to the tension and loosening amount of the chain or belt 3 so that the elastic force of the coil spring 7 And the movement away from or adjacent to the fixing block 4 on the sliding shaft 5 is repeated, and finally, the device itself has a form of moving upwardly on the tension side and the desired tension of the chain or belt 3. Will be adjusted automatically.

Of course, when the drive shaft 1 is rotated counterclockwise, for example as shown in (b) of Figure 5 the upper part of the chain or belt 3 in the drawing is relaxed and the lower part is tensioned at the same time the present invention as described above The sliding block 6 of the device is subjected to an elastic force of the coil spring 7 in response to the tension and loosening of the chain or belt 3 and is adjacent to or away from the fixing block 4 on the sliding shaft 5. The operation is repeated and finally the device itself has a form that moves downward to the tension side and automatically adjusts the tension of the chain or belt 3 to the desired tension.

In addition, when the driving shaft 1 is repeated, for example, in the clockwise and counterclockwise rotation as shown in (c) of FIG. 5, the upper part and the lower part of the chain or belt 3 in the drawing As the relaxation and tension are repeated and reversed, respectively, the fixed block 4 and the sliding block 6 of the present invention are close to each other, and the upper and lower parts of the chain or belt 3 are relaxed. The tension in (3) is automatically adjusted to the desired tension.

On the other hand, in another embodiment of the present invention installed in the inner part of the tension or relaxation of the chain or belt 3 in the above, as shown in Figures 6 and 7, at both ends of the fixing block (4) The coil spring 7 is first installed on the bolt-shaped sliding shaft 5 having one end fixed vertically in a perpendicular direction, and then the sliding block 6 in a state in which the sliding block 6 is slidably coupled. The tension adjusting nut 8 is coupled to the other end of the bolt-shaped sliding shaft 5 protruding outward.

That is, in the state where the coil spring 7 is fitted to the bolted sliding shaft 5 between the fixed block 4 and the sliding block 6, the sliding block 6 is moved outward (ie, the tension adjusting nut 8). Direction) to generate an elastic force to push in the direction.

Therefore, when the chain and belt automatic tension control device according to another embodiment of the present invention having such a configuration is to be installed and used in the chain or belt of the power transmission system, as shown in Figure 7 fixed block (4) And the sprockets 41 and 61 arranged on the sliding block 6 to be engaged with each other on the inside of the chain or belt 3 of the part where tension and relaxation are respectively made, and at the same time, the tension adjusting nut 8 is properly tightened. Loosen to adjust the tension of the chain or belt (3) to have the desired tension.

As described above, when the driving shaft 1 is rotated clockwise or counterclockwise in a state in which the tension or relaxation of the present invention is installed in the same manner as a conventional ring tension adjusting device inside the chain or belt 3 in which tension and relaxation are performed. The sliding block 6, which receives the elastic force of the coil spring 7 and acts to loosen and tension the chain or belt 3 outward, responds to the state change of the tension and the relaxed part of the chain or belt 3 To relieve the impact force due to tension and relaxation in the coil spring (7) and at the same time the total tension of the chain or belt (3) is desired regardless of the direction of rotation of the drive shaft (1) It will automatically adjust to have tension.

Of course, the tension of the chain or belt 3 may be arbitrarily adjusted by changing the elastic force of the coil spring 7 through the change of the tightening force of the tension adjusting nut 8 as described above.

As described above, the apparatus of the present invention can select and install either the inside or the outside of the tension and relaxation portions of the chain or the belt 3 in response to the space size of the position where the power transmission system is installed. It is easy and can utilize the surrounding space smoothly.

Although the above-described embodiments have been described with respect to the most preferred embodiments of the present invention, it is not limited to the above embodiments, and it will be apparent to those skilled in the art that various modifications can be made without departing from the technical spirit of the present invention.

Figure 1 (a) (b) is a conventional general power transmission system without a tension control device.

Figure 2 (a) is an illustration of installing a tension adjusting sprocket or idle roller on the outside of the portion having a relaxed state in the chain or belt of the conventional tension adjusting device.

Figure 2 (b) is an exemplary view installed a tension adjusting device having a configuration in which the uneven piece is installed on the outer peripheral surface of the ring inside the chain or belt.

Figure 3 is an exploded perspective view according to an embodiment of the present invention device.

Figure 4 is a perspective view of the bonded state according to an embodiment of the present invention.

Figure 5 (a)-(c) is a schematic plan view showing a state in which an embodiment of the present invention is operated by coupling to the outside of the chain or belt.

6 is a perspective view of a coupled state according to another embodiment of the present invention.

Figure 7 is a plan view showing a state in which another embodiment of the present invention coupled to the inside of the chain or belt.

Explanation of symbols on the main parts of the drawings

1: drive shaft 2: driven shaft

3: chain or belt 4: fixing block

5: sliding shaft 6: sliding block

7: coil spring 8: tension adjusting nut

11, 21, 41, 61: sprocket 62: guide ball

Claims (2)

It is installed on the outer side or the inner side of the chain or belt installed between the drive shaft and the driven shaft each having a sprocket, and automatically controls the tension of the chain or belt part that has been relaxed in response to the rotational direction of the drive shaft. In configuring the tension control device, A fixed block having a sprocket engaged with the inner side or the outer side of the chain or the belt at the center thereof and having a pair of sliding shafts fixed at both ends thereof; A pair of bolt-type sliding shafts having one end fixed in a vertical direction at both ends of the fixing block; The sprocket which is engaged at the inner side or the outer side of the chain or the belt in the center is squeezed, and the guide holes drilled at both ends have the form of the bolt-type sliding shaft fitted and the sliding movement in the bolt-type sliding shaft in response to the gap between the chain or the belt. A block; A bolt-type sliding shaft is fitted between the fixed block and the opposing surface of the sliding block or the bolt between the outer surface of the sliding block and the tension adjusting nut corresponding to the engagement position of the sprockets coupled to the inner or outer side of the chain or belt. A pair of coil springs installed in the form of a sliding shaft, and exerting an elastic force so that the tension of the chain or the belt is maintained in an optimal state irrespective of the rotational direction of the drive shaft; And a pair of tension adjusting nuts which are screwed to the pair of bolt-type sliding shaft ends to adjust the tension of the chain or the belt by changing the elastic force of the coil spring that changes in response to the tightening amount thereof. Automatic tensioning device for chains and belts. The method according to claim 1, The fixed block or the sliding block is an automatic tension control device of the chain and belt, characterized in that the flat section is molded to have a "ㅗ" shape.

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