JPS6048817A - Belt type conveyor - Google Patents

Abstract

PURPOSE:To absorb a difference in belt tension due to a difference in length between the belts, by a method wherein a pinch roller is formed integrally with a tension roller, and the rollers are energized with each other through the force of a spring to allow independent application of tension on each belt. CONSTITUTION:In a roller constitution body 6 mounted to each belt 2, by installing a compression spring 14, an arm 10 is energized such that it presses a pinch roller 8 against a belt 2 on a support roller 3. An arm 11 is also energized so that it presses a tension roller 9 against the belt 2. As a result, the pinch roller 8 presses the belt 2 against the roller 3 to achieve the function of the pinch roller, and the further movement is stopped by the roller 3. Meanwhile, the tension roller 9 presses the belt 2 to apply tension, proportioning the force of the spring 14, on the belt 2. This enables absorption of the tension of the belt 2 due to a difference in length between the belts 2.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a belt-type conveying device using a hubbelt, particularly a belt-type conveying device in which a plurality of endless belts are stretched in parallel between support rollers to convey articles such as sheets. Regarding a conveyance device.

PRIOR ART A multiplex system is equipped with a plurality of endless belts and, for example, two support rollers, and conveys an article such as a sheet by stretching the plurality of endless belts in parallel between both support rollers and rotating one of the rollers. Belt-type conveyance devices are known and are used, for example, as a conveyance device for drawing originals in copying machines for copying drawings. A conveyance device using such a plurality of endless belts is preferable in terms of protecting drawings and conveying them safely.In particular, by making the belts have a fibrous structure, drawings can be conveyed even more safely. There is.

Conventionally, in order to provide tension to the belts of this multi-belt conveyor system fi, all the belts were pressed by one tension roller, and the tension caused by the suppression of the tension roller was adjusted by an adjustment screw. Ta. However, each belt has a difference in length even at the time of manufacture, although it is within the tolerance, and there is also a difference in elongation due to long-term use.Furthermore, belts with a fibrous structure are affected by changes in the surrounding atmosphere, especially humidity. The degree of expansion and contraction is large, and the length differences between individual belts are large, making it difficult to adjust each belt to an appropriate tension using a single tension roller. If the conveying device is operated without sufficient tension being applied to the individual belts, that is, when the belts are loose, sheets, etc. may not be fed properly, resulting in folded or wrinkled sheets, or even paper jams. may occur. On the other hand, if the tension on the belt is too strong, a strong load is applied to the support rollers, placing a large burden on the p1 drive motor, and in the worst case, the motor may stop and the belt may lose its function as a conveying device.

OBJECTS OF THE INVENTION It is therefore an object of the present invention to provide a method for controlling individual belts without difficult adjustments in multi-belt conveying devices! The purpose is to provide a device that provides positive tension.

Structure of the Invention In order to achieve the above object, in the multi-belt conveying device according to the present invention, a pinch roller and a tension roller are disposed on each belt as an integral structure, and both rollers are moved against each other so as to press the belt. It is characterized by being biased by a spring. Therefore, tension is applied independently to each belt, and differences in belt tension due to differences in length of each belt can be absorbed.

EXAMPLES Hereinafter, examples of the present invention will be described with reference to the drawings. FIG. 1 shows a part of belt type conveyance device #1 using a plurality of endless belts. FIG. 2 is a side view of the conveying device 1. As shown in these drawings, the conveying device 1
For multiple endless belts 2.2', 2”...
..., and is stretched by two support rollers.

Note that although there are two support rollers in the figure, there may be three or more support rollers. The belts 2.2', 2'', etc. stretched between the support rollers 3.4 rotate the shaft 5 of one of the rollers by a driving means (not shown) such as a motor. The belt is made to run and conveys the article (for example, a sheet) on the belt to the desired location.Although the belt is made of a flexible material, for example, in order to protect the drawing and convey it safely, the belt is made of U1 fiber. It is also preferable to have a structure.

Belts 2. 2', 2"...... may stretch and lose their tension due to long-term use, or may shrink and become too tight due to changes in the environment, especially changes in humidity. Not preferred.Therefore, belts 2.2', 2
``...'' must be given an appropriate amount of tension regardless of whether the belt stretches or contracts.For this reason, in the present invention, each belt 2, 2'% 2''
A roller structure 6 that applies appropriate tension to each belt is arranged for each belt, and each structure 6 is supported by one support shaft 7 extending parallel to the shaft 5 of the support roller 3.

The roller structure 6, which individually applies proper tension to each belt 2.2', 2'', tensions the belt 2 between the Peltra 8 and the supporting rows 23 and 4. The pinch row 28 is rotatably supported by a pair of interconnected range 1 arms 10, and the ti 41 arm 10 is connected to the support shaft 7.
The pinch roller 8 is pivotally supported by the support roller 3, and is pivotable so that the pinch roller 8 can come into contact with the belt on the support roller 3. The tension roller 9 is connected to a pair of second arms 1 that are connected to each other.
1, and this second arm 11 is also pivotally supported by the support shaft 7 so as to be able to push the tension row 29 and the belt at a position away from the support roller. These first and second arms 10.1
1 each have an extension 12 , 13 extending from the shaft 7 in the direction opposite the respective roller, at the ends of which a compression spring 14 is provided.

Due to the attachment K of the compression spring 14, the arm 10 is urged to press the pinch roller 8 against the belt 2 of the support roller 3, and the arm IJ is also urged to press the tension roller 9 against the belt 2. Ru. Due to the spring biasing of both rollers, the pinch roller 8 presses the belt 2 against the roller 3 and functions as a pinch roller, and the roller 3 stops the belt from further movement. On the other hand, the tension roller 9 is operated by the force of the spring 14? ) Held 2
to apply tension to the belt corresponding to the spring force. This tension can be arbitrarily changed by appropriately setting the spring constant of the spring 14, the free length of the spring, the length of the arm extension, etc.

Figure 3 shows another example of a 0-58 structure that provides tension to the belt. In this embodiment, the first arm 10 and the second arm 1 are not extended, and springs are applied to bias the arms 10.11 at intermediate positions between the support shaft 7 and each roller 8.9. 15 is provided, thereby pressing the pinch roller 8 against the support roller 3 and pressing the tension roller 9 against the belt 2.

As is clear from these embodiments, the pinch roller 8 and the tension roller 9 are spring biased against each other in the direction of pressing the belt, and after the pinch roller 8 has applied a sufficient pinch force to the belt, The pinch roller does not move any further and the first arm 10 acts as a fixed arm, and the belt is applied to the tension roller 9 from the spring J4 or 15 via the 27th arm 11 with the fixed 17th arm 10 as a reference. 2 is applied, and the belt 2 is stretched between the support rollers 3.4 with a suitable tension adjusted by the springs 14 or 15.

Effects of the Invention Therefore, according to the present invention, a simple roller structure comprising a pair of small rollers always provides the correct tension even when the belt expands and contracts, so that the belt is always kept at the correct tension. . In addition to being undone, it is possible to apply an appropriate pinching force to the belt on the support rollers, maintaining the running speed of the belt at a predetermined speed, thereby ensuring reliable conveyance of the article. Furthermore, since such a structure is provided for each individual belt, even if there is a difference in the length of each belt, an appropriate tension can be applied to each belt, and the sheet-like material can be easily tightened without making difficult adjustments. This prevents clogging and eliminates the inconvenience of placing a large load on the drive system.

[Brief explanation of the drawing]

FIG. 1 is a perspective view of a belt-type conveying device according to the present invention, and FIG.
The figure is a side view of the apparatus shown in FIG. 1, and FIG. 3 is a side view showing another example of a roller structure. DESCRIPTION OF SYMBOLS 1... Belt type conveyance device, 2.2', 21... Endless bell), 3.4... Support roller, 5... Support roller shaft, 6... Roller structure, 7...・Support shaft, 8... pinch roller, 9... tension roller, 10... first arm, 11... second arm, 14.15... spring

Claims (1)

[Claims] It consists of a plurality of endless belts and at least two support rollers, and the plurality of belts are stretched parallel to each other between the support rollers, and the articles on the endless belt are conveyed by rotating one of the support rollers. In the belt-type conveyance device that has come to be used, a pinch roller that presses the belt against one of the support rollers and a tension roller that tensions the belt between the support rollers are formed as one structure, and the pinch roller rollers and tension rollers (rollers and tension rollers)
1. A belt-type conveyance device characterized in that the roller structures are provided for each individual belt, and each belt is biased by a spring in the direction of pressing the belts.