JPH0444526Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a tension detection roller device for a sheet winding machine that winds up a thin film with low tension.

[Conventional technology]

The tension detection device installed in the sheet winding machine has a pair of tension detectors arranged horizontally at a predetermined interval, and both ends of the detection roller are connected to the movers of each tension detector via bearings. The tension applied to the sheet is detected by slightly moving the movable element by the tension of the sheet that is running around the detection roller, and by electrically reading the minute displacement of this movable element. This is a device configured to

The detection roller is driven to rotate by the sheet that runs around it, and if the sheet to be wound is a thin film, the winding tension is small, so the rotation of the detection roller is smaller than the winding tension of the film. The resistance (mechanical loss) is too large, and the film is stretched greatly at the detection roller, and the thin film is damaged by contact with the detection roller, reducing its commercial value.

In order to prevent this, it is possible to reduce the rotational resistance by driving the detection roller into rotation, but a general driving force transmission mechanism that transmits the driving force to the rotation shaft of the detection roller via gears etc. In this case, an external force acts on the detection roller during drive rotation, and this external force is added to the detection force of the tension detector, making it impossible to accurately detect the tension applied to the film.

[The problem that the idea aims to solve]

In view of the above-mentioned problems, the present invention is designed to drive and rotate the roller support shaft that supports the detection roller without applying any force to the detection roller when winding a thin film with low tension. The object of this invention was to reduce the rotational resistance of the detection roller.

[Means to solve the problem]

In the present invention, a pair of tension detectors are arranged at a predetermined interval along the horizontal direction, and the movable element of each tension detector rotatably supports a roller support shaft via a bearing. The roller support shaft is supported by each roller support shaft via a bearing, and the roller support shaft and the drive shaft of the drive motor are made concentric and connected via a coupling ring. This is a tension detection roller device for a sheet winding machine, characterized in that it is configured to be driven and rotated in the direction of the tension detection roller device.

〔Example〕

The present invention will be explained in more detail with reference to FIGS. 1 to 3.

A pair of tension detectors A are arranged at a predetermined interval in the horizontal direction, and each tension detector A is attached to a mounting member 1.
installed on. Tension detector A has mover 2.
is attached, and when an external force in the horizontal direction shown by arrow P is applied to this movable element 2, it moves slightly, and the movable element 2
It is configured to electrically read minute displacements.

As described later, the movable element 2 of the tension detector A includes:
Although the weight of the detection roller R is applied, the mover 2 does not move slightly due to the external force in the vertical direction, so the weight of the detection roller R does not appear in the detection force of the tension detector A, which improves detection accuracy. It's increasing.

The movable element 2 of the tension detector A has a bearing unit 3.
A roller support shaft 4 whose axis is horizontal is rotatably supported through the roller support shaft 4 , and both ends of the detection roller R are supported by the roller support shaft 4 through bearings 5 .

The drive shaft 6 of the drive motor M and the roller support shaft 4 are concentric and connected via a coupling 7, and the drive motor M drives and rotates the roller support shaft 4 in the same direction as the detection roller R. It is configured to The drive motor M has a roller support shaft 4
Since it only drives and rotates the motor, a small output is sufficient.

As shown in FIG. 1, intermediate rollers 8 and 9 are provided before and after the detection roller R, respectively. These intermediate rollers 8 and 9 are attached to a thin film 11.
is arranged at a position where it can be wrapped around the detection roller R at a predetermined wrapping angle.

As shown in FIG. 2, the angles formed by the front and rear film 11 wrapped around the detection roller R with the horizontal line are (θ ₁ ) and (θ 2 ), respectively, and the horizontal angle acting on the movable element 2 of the tension detector A is defined as (θ 1 ) and (θ ₂ ). If the force in the direction is (F) and the tension applied to the film 11 is (T), then
The following formula is established depending on the balance of horizontal forces.

F=T×cosθ ₁ +T×cosθ ₂ Therefore, T=F/(cosθ ₁ +cosθ ₂ ), and the horizontal force (F) acting on the mover 2
is detected by the tension detector A, so the tension (T) applied to the film 11 can be calculated.

As described above, the detection roller R
The roller support shaft 4 supporting both ends of the drive motor M is concentric with the drive shaft 6 of the drive motor M, and the two are connected via a coupling 7, and the roller support shaft 4 itself is connected to the detection roller by the drive motor M. Since it is driven and rotated in the same direction as the detection roller R, the rotational resistance of the bearings 5 at both ends of the detection roller R is reduced compared to a conventional structure in which a rotating shaft integrated with the detection roller is supported by bearings. becomes significantly smaller. Therefore, even when winding up a thin film 11 with low tension, the film 11 will not be stretched or damaged at the detection roller R portion.

If the rotational speed of the roller support shaft 4 is matched with that of the detection roller R, the roller support shaft 4 will be driven and rotated together with the detection roller R. The rotational resistance in the area becomes even smaller.

Further, since the roller support shaft 4 and the drive shaft 6 of the drive motor M are concentric, the rotational force of the drive motor M does not act on the detection roller R as an external force at all, so that no external force is applied to the film 11. The exact tension being applied is detected by tension detector A.

[Effect of idea]

In the present invention, a pair of tension detectors are arranged at a predetermined interval along the horizontal direction, and the movable element of each tension detector rotatably supports a roller support shaft via a bearing. The roller support shaft is supported by each roller support shaft via a bearing, and the roller support shaft and the drive shaft of the drive motor are made concentric and connected via a coupling ring. Since the detection roller is configured to drive and rotate in the direction, the rotational resistance of the detection roller is significantly reduced, and even when winding a thin film with low tension, the film will not be stretched or damaged at the detection roller. At the same time, since the rotational force of the drive motor does not act on the detection roller as an external force at all, the tension detector can detect the exact tension applied to the film.

[Brief explanation of the drawing]

FIG. 1 is a side view of a tension detection roller device according to the present invention, and FIG. 2 shows the relationship between the force F applied to the movable element 2 by the tension detector A and the tension T of the film 11. 3 are longitudinal sectional views of the detection roller R portion. The explanations of the symbols of the main parts constituting the present invention are as follows. A...Tension detector, M...Drive motor, R...
Detection roller, 2... Mover, 3... Bearing unit, 4... Roller support shaft, 5... Bearing, 6... Drive shaft, 7... Coupling, 11... Film.

Claims (1)

[Scope of utility model registration request] A pair of tension detectors are arranged at a predetermined interval along the horizontal direction, and the movable element of each tension detector rotatably supports a roller support shaft via a bearing, and both ends of the detection roller are connected to each roller. The support shaft is supported via a bearing, and the roller support shaft and the drive shaft of the drive motor are made concentric and connected via a coupling, and the drive motor drives and rotates the roller support shaft in the same direction as the detection roller. 1. A tension detection roller device for a sheet winding machine, characterized in that the tension detection roller device is configured to