KR840001245B1 - Apparatus of adjustment of warp tension in the loom - Google Patents

Abstract

A loom warp tensioning appts. comprises a pivotal tension lever(13) with a warp-engaging roller916), and a weighted lever(17) linked to the tension lever. Between the tension lever and the weighted lever is a system for varying the lever ratio. Pref. the system comprises a slot(26a) in the tension lever along which the pivot pin(31) of a link can be adjusted and positioned; the link itself pref. also being length-adjustable by a turn-buckle. Alternatively, the respective ends of a link can be pivotally connected to any one of the rows of holes in the tension lever and the weighted lever.

Description

Inclination tension adjusting device for loom

1 is a side view showing a known tilt tension adjusting device.

2 is a table showing known gradient control characteristics.

3 is a side view showing the inclination tension adjusting apparatus of the present invention. (Regarding the unpublished selection technology at the time of the Japanese election at the time of the Japanese election for the same applicant patent application 81-1070, which was filed in Japan by the same applicant, the prior art of the meaning of the selection for the Japanese post application)

4 is a table showing the characteristics of the inclination tension control of the present invention.

5-10 are partial side views, each representing another embodiment of the present invention.

The present invention relates to a tilt tension adjusting device for a loom.

In general, the inclined beam sent out from the inclined beam is fed to the heald frame through a plurality of rollers such as a back roller and a tension roller. However, by adjusting the tension of the inclination according to the type of the fabric, it is possible to obtain the ground and properties suitable for the fabric type. Conventionally, there has been a so-called weight lever method in which a weight or spring is connected to a support lever system of a tension roller and the force is adjusted to adjust the inclination tension.

The conventionally known weight lever type tilt tension adjusting device will be described with reference to FIG. 1 as follows.

In the figure, 1 is an inclined beam shaft rotatably supported on one side of the frame 2 so that the inclined beam 3 can be detachably installed between the inclined beam shaft 1 and the other side of the frame 2.

4 is a transmission provided on one side of the frame 2, and the input shaft 4a is transmitted from the drive shaft (not shown) via the timing bell 5, and the power shifted by the transmission 4 at isochronous from the output shaft 4b to spur gears 6,7, The bevel gears 8, 9, 10 and 11 are transferred to the inclined beam shaft 1, which is transmitted through the bevel gear 11, and the inclined beam 3 is synchronized with the rotation of the drive shaft. It is supposed to rotate.

12 is a back roller installed on the rear side of the above-mentioned inclined beam 3 so as to be rotated between the rear ends of the frame 2 so as to guide the inclined w sent from the inclined beam 3.

13 is a tension lever rotatably supported by a support shaft 15 with respect to the pair of support portions 14 fixed to the left and right sides of the frame 2 described above, and a tension roller 16 is rotatably supported between these rear ends.

In addition, the inclination w transmitted from the inclined beam 3 past the rear roller 12 to the inclined upper side is supplied to the heald frame (not shown) through the tension roller 16 described above, but the tension fluctuation of the inclined tension roller depends on the up and down of the tension roller 16. It detects by the tilt motion of the tension lever 13 mentioned above.

17 is a weight lever pivotally supported with respect to frame 2 by the support shaft 18, and a balance weight 20 (not shown in the figure, but may be replaced by a spring) is installed at the distal end thereof by a small opening 19. .

21 is a connecting rod connected to the upper end of the tension lever 13, which is transmitted via the compression spring 22, and connected to the lower end of the weight lever 17, which is pivotably connected by the connecting pin 23, to the lower end of the warp w. The weight lever 17 is tilted in accordance with the tilt of the tension lever 13 due to the tension fluctuation.

24 is a shift lever mounted on the shifting shaft 4c of the transmission 4, which is connected to the weight lever 17 on one side of the transmission via the interlocking link 25, and shifts the weight of the transmission 4 according to the tilt of the weight lever 17 due to the change in the tension w. By changing the speed ratio, the rewinding rotation speed of the warp beam 3 described above is adapted to change the direction of holding the proper tension by adapting to the change in the tension of the warp.

In the conventionally known inclination tension adjusting device configured as described above, the tension T acting on the inclination w is balanced with the weight of the Berance weight 20 described above. By changing the force).

However, when the weight 20 is made smaller and the inclination tension T is made smaller, the responsiveness of the lever mechanism of the tension roller 16, such as the tension lever 13, the connecting rod 21, and the weight lever 17, etc., is worsened. There was a flaw that it would not, and therefore adversely affect the organization.

On the contrary, in the case where the weight of the inclination w is turned on by increasing the ovulation weight 20, the responsiveness of the lever mechanism of the tension roller 16 is so good that the shifting operation of the transmission 4 is sensitively performed, thus adversely affecting the weaving. There was a flaw.

In order to solve the above-mentioned problem, the conventionally known tension adjusting device includes a position of the connecting pin 23 of the weight lever 17 and the connection 21, and thus the distance between the axis 18 and the working point of the weight 20 l ₁ and the connecting pin 23 of the supporting axis 18. By changing the ratio (l ₁ / l ₂ : this is the lever ratio of the weight lever 17) to the distance to the vehicle, the degree of responsiveness of the lever mechanism by changing the tension T of the inclination w was supposed to be changed.

In other words, when the tension T of the inclination w is small, the connecting pin 23 described above is reduced in the position A of FIG. 1 by reducing the lever ratio of the weight lever 17 to improve the responsiveness of the lever mechanism, and when the inclination w of the tension T is large. A study has been conducted to move the speech pin 23 to the B position in FIG. 1 to increase the lever ratio of the weight lever 17 to reduce the responsiveness of the lever mechanism so that stable straightness is performed even when the tension T of the inclination w is changed. . By the way, when the tension ratio T (weight of the weight 20) and the lever ratio of the weight lever 17 of the inclination w is determined, the stable region Z ₁ and the unstable region Z _{2, which} are performed stably as shown in FIG. 2 by the experiment, are determined.

A and B in FIG. 2 indicate whether the inclination tension T can be stabilized and changed to the maximum when the aforementioned connecting pin 23 is set to the A position and the B position. According to this, it can be seen that in order to stabilize the tension T of the inclination w and to adjust it widely, it is possible to change the lever ratio of the weight lever 17 by changing the position of the connecting pin 23. There was a defect that T's maximum stable ranges t ₁ -t ₂ , t ₃ -t ₄ were narrow and wave 20 had to be adjusted and the adjustment was troublesome.

A special feature of the present invention is the inclination tension in the loom which can easily adjust the inclination tension in a wide range without changing the weight by providing a lever ratio changing mechanism in the tension lever system near the tension roller by eliminating the above known defects. To provide an adjustment device.

One embodiment in which the present invention is embodied below will be described with reference to FIGS. 3 and 4.

In this embodiment, members having the same structure and function as those of the conventionally known apparatus described above are denoted by the same reference numerals and description thereof will be omitted.

26 is a pair of left and right support levers rotatably supported with respect to the support shaft 15 positioned at the upper part of the frame 2, and the tension roller 16, which is electrically connected between one side thereof, is supported by the support shaft 27, and each support lever 26 has a circular arc shape. Long hole 26a is formed.

28 is an adjustment ring of a lever ratio pivotably supported by an axis 30 with respect to a rear end of the tension lever 13 which is pivotally supported by the axis 29 below the axis 15 described above. A connecting pin 31 which is fixed in position according to the long hole 26a is rotatably mounted.

Thus, by adjusting the position of the connecting pin 31 described above between the ends e, f of the long hole 26a, the ratio of the distance between the axis 15 of the support lever 26 and the connecting pin 31 l ₃ and the distance between the axis 15 and the axis 27 l ₄ (l ₃ / ₄ : This is called lever ratio of support lever 26).

In this embodiment, the support lever 26 on the tension roller 16 side is called the tension lever system K ₁ of the tension roller and the weight lever 17 on the weight 20 axis is called the weight lever system K ₂ on the boundary 29 of the tension lever 13.

Next, the operation of the gradient tension adjusting device configured as described above will be described.

3, the connecting pin 31 of the adjustment ring 28 is located at the end e of the long hole 26a, and the lever ratio of the support lever 26 is minimized, indicating that the connecting pin 23 of the connection 21 is in the A position.

This state is indicated by e in FIG. 4 showing the relationship between the tension T of the inclination w and the lever ratio of the support lever 26. If the weight 20 is kept constant, and the position of the connecting pin 31 is changed from the e position of FIG. 3 to the f position, the weight 20 of the weight 20 will be changed according to the change of the lever ratio of the support lever 26. The moment given to the support lever 26 via the tension lever 13 and the adjusting ring 28 increases, so that the tension T of the inclination w increases from t ₁ to t ₂ , as shown in FIG. 4A without changing the weight 20.

In the case where the connection 21 in Fig. 3 is changed from the A position to the B position, the lever ratio of the weight lever 17 is increased to increase the tension T of the inclination w. In this state, if the adjustment ring 28 described above is changed to ef of the long hole 26a, the inclination is increased. The tension T of w is increased to t ₁ ′ -t ₂ ′ as shown in FIG. 4B, whereby extensive tension adjustment is performed.

In addition, in the case where the adjustment range of the tension T of the inclination w is widened, when the connecting pin 23 is moved from e to f in the position A with the weight pin 23 as described above, it is indicated by A 'in FIG. The tension T of the inclination w is adjusted without changing the weight 20 along the straight line as described above, and the connecting pin 23 is moved to the B position, and the adjusting ring 28 is moved from e to f as shown in B 'of FIG. The inclination tension T is adjusted without changing the weight 20 along a straight line.

Thus, in the embodiment of the present invention, since the adjusting ring 28 for adjusting the lever ratio of the support lever 26 is provided between the support lever 26 and the tension lever 13, the conventional inclination tension T can be obtained without changing the weight 20. Compared to the adjusting device, the stabilizing tension can be adjusted by a simple operation of adjusting the position of the adjusting ring 28, while being more stable and adjusting.

In addition, in the above-described embodiment, the case where the weight T of the inclination is extensively changed by changing the weight 20 in two steps has been described. However, if the weight 20 is changed once, the weight 20 can be held fixed thereafter. I can prevent it.

Moreover, this invention can also be embodied as an Example as follows.

(A) As shown in FIG. 5, the hole 17 is projected on the weight lever 17 so that the connecting rod 21 can be arbitrarily positioned within the range of both ends A and B. FIG.

(B) As shown in Figure 6, the upper and lower ends of the connecting rod 21 can be adjusted to the A, B and C positions.

(C) As shown in FIG. 7, the lower end of the adjustment ring 28 to be supported by the support lever 26 is connected to the rear end of the tension lever 13 so as to be adjustable.

(D) A long hole 13a is laid at the rear end of a pair of right and left tension levers 13 (refer to FIG. 1) as indicated by the solid line of FIG. 8, and the tension roller 16 is supported in these long holes 13a so as to be adjustable in the front and rear directions. Let it be. In addition, as shown in the dotted line of FIG. 8, the long hole 13a of the tension lever 13 is installed on the 15 axis of the support axis so that the lever 13 can be adjusted.

(ㅁ) Turn in the middle of the adjustment ring 28 as shown in FIG. A turn buckle 32 is installed to allow the ring 28 to be adjusted in length.

(Iv) As shown in Fig. 10, the support lever 26 is divided into two, so that the opening angle thereof can be adjusted.

As described above, the present invention is fixed to the tension lever system of the tension roller which adjusts the tension of the inclination sent out from the inclined beam by providing a lever ratio changing mechanism for changing the lever ratio of the tension lever system. By simply operating the mechanism for adjusting the lever ratio of the tension lever system in the vicinity of the tension roller, it is possible to easily adjust the tension of the inclination and to control the inclination tension extensively.

Claims (1)

An inclination tension adjusting device for a weaving machine characterized by providing a lever ratio changing mechanism for changing the lever ratio of the tension lever system with respect to the tension lever system of the tension roller for adjusting the tension of the warp beam sent out from the warp beam. .

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