DD201578A5 - TAPE WINDER - Google Patents

Abstract

The invention relates to a tape winding machine for wrapping pipes, rods rods u. Like. With a band-shaped insulating or protective material. With the invention, a constant, relative rotational speed between the tape winding heads and the also rotating, to be wrapped product is maintained with relatively simple means even when changing the rotation or winding direction. The essence of the invention is that in the drive of each tape winder (4) between the gear ratio and the winding head 5, a planetary gear is arranged, the internally toothed ring z ind 13 with the winding head 5, his arm K to the gearbox and his sun z 11th stand with the transmission unit of the tape winding drive in a rotary motion transmitted connection. Figure 4

Description

23.1995.6

B andwicke! Machine Field of application of the invention:

The invention relates to a tape winding machine for wrapping pipes »} rods, rods or the like. With a band-shaped insulating and protective material.

Characteristic of the known technical solutions;

For wrapping pipes / »rods, rods /? o. The like, the Wicke! Direction of the successive bands is always changed. This means that the winding heads of successively arranged band winder must be rotated in opposite directions. It is important that the thread pitch in both directions is equal.

To solve this problem, several facilities have already been proposed. The desired speed is set by means of gear ratios or infinitely variable speed switches and the direction of rotation is changed with the slider wheel turntable. The winding heads have the same speed in both directions of rotation.

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This solution allows easy set-up and easy handling. The product to be wrapped does not rotate about its axis. The wrapped strip always has the same thread pitch, since the relative speed between the dom product and the winding head is always constant. · If the direction of rotation or winding direction is changed, only the dg slider must be changed. The translation does not change »

With the technological advancement in the production of wrapped products, it has been assumed that the object to be wrapped also rotates on its own axis during the technological process. In this case, however, the speed adjustment for a constant, relative speed in the conventional tape winding machines is a very complicated and time-consuming, usually unsolvable task »The winding heads must then be rotated alternately in one or the other direction, while the direction of rotation of the product always the same. Consequently, the speed of the product is added once to the speed of the winding head or subtracted from the speed of the winding head. For a constant thread pitch but is still the task that the relative speed between the product and the winding head must be maintained constantly. This means that the gear ratio must be changed with each change of direction of the angle head · A simple adjustment using a sliding wheel is no longer sufficient. Incidentally, a constant rdative speed can not be realized with a change gear manual transmission due to the Abstuf.ung in the numbers of teeth. It must

iei / continuously variable transmission can be used.

Object of the invention:

The invention solves the problems outlined above and proposes a relatively simple solution with

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a change of direction can be carried out without difficulty

Explanation of the essence of the invention

The invention is based on the object of developing an improved band winder, in which, between the product to be wrapped and the winding head, in all directions of rotation

Ctiä

tungeη ν required relative speed is present.

According to the invention the object is achieved in that between the gear ratio and the winding head, a planetary gear is arranged, the internally toothed ring gear are connected to the winding head, his arm to the gearbox and its sun gear to the transmission unit. This relatively simple technical measure ensures that the constant relative speed between the product and the winding head can be maintained at each direction of rotation.

Ausführungsbeispie1;

The invention will be explained in more detail below using an exemplary embodiment. In the accompanying drawings show:

1 is a side view of a cable stranding machine which is coupled to a tape winding machine according to the invention.

Pig. 2 is a tape guide sketch with the same direction of rotation of the product and the winding head.

3 is a tape guide sketch in the opposite direction of rotation de ¹ s product and the winding head.

Fig. 4- u. Drive schemes of two different embodiments of Figure 5 tape winding machine according to the invention;

6 shows the speed and speed diagram of the planetary gear in the embodiment of FIGS. 4 and 5.

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According to Fig. 1, the stranding elements are removed from the coils 1 and guided by guide elements 3 in a stranding caliber. From here, the cable makes a turn around its own axis. Thereafter, the rotating cable enters a tape winder 4 according to the invention. The hollow main shaft guides the cable to a rewrapping head 5 where the tape is wound onto the cable. According to Fig. 1, a second tape winder 4 is provided whose Wikkelkopf 5 but rotates in the opposite direction. The cable is further passed through an extractor 6 to a gear box 7 and finally rolled up by means of a Aufwinders 8 aufi ^ receiving drum 9. The individual machines of the system are driven by a transmission shaft 10 from a main drive motor 11, or are kinematically connected to each other.

As already mentioned, the winding heads 5 of the two band winders 4 are rotated in opposite directions. I _n Fig. 2, the direction of rotation of the winding head 5 with n ^ and that of the cable is marked with n ^. Both directions are opposite.

In Fig. 3, n ^ and n ^ have the same direction of rotation. The tape is in both cases removed from a tape reel 21 and wound around the cable 25 via movable guide rollers 22, the roller 23 of a self-adjusting brake wire and above a guide pin 24 parallel to the cable 25.

In Figs. 2 and 3, the arrangement differences of the two directions of rotation and the different direction of the thread pitch are shown. Furthermore, it follows from them that the wrapping with the tape of the relative speed of ⁿ rel ^{= n} f ~ ⁿ k ^{zwisciien the} winding head 5 / n ^ / and the cable

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25 / & v / depends. The thread pitch b in mm stands with the linear velocity ν in m / min and with the relative

    -1 '

RPM in min in the following relationship:

v, 1000 ν

In Fig. 4, the drive scheme of the tape winder according to the invention is shown with a change gear pair speed setting. The rotational movement of the main drive motor 11 is via the transmission shaft 10 to the individual tape wrappers

4 passed and transmitted by a pinched on a shaft I gear 1 on a shaft II / by gear 2 /. The shaft II is connected on the one hand to a gearbox unit consisting of gears Zr, Zg »Zr ₇ and Zq and on the other hand in this example to a bath Zo and through a ribbed belt 26 to a wheel z. The manual transmission unit further has two change gears, which are marked with,, of which one wheel, / as the gear z ^ and the wheel Zo / mounted on the shaft II and the other on the shaft III are 3. The gear Zr is slidably mounted on the shaft III. The gear Z ₆ is mounted on the shaft IHa and the gears Z ₈ and Zq on the shaft IV. The shafts III, IHa and IV are arranged so that the displaceable gear 5 can be engaged / disengaged with the gear z1 / as shown in FIG. 4 / and with the gear Zg / as in FIG. This allows a directional speed, whereby the direction of rotation of the winding head

5 can be changed.

In FIG. 4, a planetary gear is arranged above the shaft IY. On another shaft V, the wheel z is keyed for the ribbed belt 26, as well as an Ana K of the planetary gear is rotatably mounted. On the arm K is a Plank wheel or orbiting wheel

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Zxjp arranged rotatably, on the one hand with a rotatably mounted on a shaft V sun gear z ^ and on the other hand with a ring gear z ^ is in communication. The ring gear Z / jo is provided with a gear z ^, which engages in a keyed on the hollow main shaft VI Zahrad z ^ c. On the hollow main shaft VI of the winding head 5 of the band winder 4 is also attached and in this way the connection between the ring gear z ^ ^ and the winding 5 made.

The sun gear z ^ is connected to the gearbox unit / direction reversing unit by a gearwheel Zq keyed on the shaft IV.

In Fig. 5 shows an analogous embodiment as in Fig. 4, but with the exception that instead of the change wheels ζ mounted on the shafts II and III continuously variable transmission, a variator, is installed. The arrangement of the other gears is unchanged as in Figure 4,

In operation, the tape winding machine 4, the constant, proportional to the speed of the cable 25 speed over the wheel Zo »the belt 26 and the wheel z ^ directed to the arm of the planetary gear. This coming from Hauptantriehsmotor 11 rotational movement has a constant direction. Thereafter, the desired wrapping speed is set either with the aid of the change wheels z, or with the variator. This speed is directed to the sun gear z ^ of the planetary gear. The direction of rotation of this rotational movement can be changed by the slide wheel Zc of the direction reverser. This changing speed is thus directed to the sun gear z ^ of the planetary gear and the rotational speed of the cable 25 proportional speed to the arm K of the planetary gear. This ensures that the ring gear z ^ of the planetary

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a gear proportional to the speed of the cable 25 constant relative speed can be removed. This means that the relative rotational speed η -, between the winding head 5 and the cable 25 is constant regardless of the direction of rotation.

In other words, the planetary gear has two "inputs" and one "output". At the one "input" / arm K / is proportional to the rotational movement of the cable speed at the other "input" / sun gear z ^ / with the desired speed of the winding head 5 proportional speed "input" and "output" / Ring wheel z ^ o / "proportional" with the respective relative rotational speed rotary motion.

This is objectified by the speed-and-speed diagram of the planetary gear in Fig. 6. In addition, with reference to this figure, a concrete calculation is made.

Example described.

Part A in Fig. 6 shows the case when the cable 25 and the wrapping head 5 rotate in the same direction, and part B when the direction of rotation is opposite. The relationships are as follows:

tgtXj. = CO _K tgoi ^ - CO /] / |

tgOi s \ yiCO ^ ₃

/ A / (O ₁₃ = i ± H ₊ 4 ^

11. 4

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/ B / ₁₃ = -l · - + Ik

At a maximum rotation speed of the cable from

1 β 150 min is the largest proportional

speed of the transmission shaft 10 Q ^ ₁₁₁ O _x = 500 min

The task here is that the largest relative speed of the winding head 5 n __-, ___ - should be 600 min *

With the kinematic Chain to Pig · 5 can do this task = 27 to be solved with the following numbers of teeth: = 50 JS ₁ = 20 ^Z 2 = 48 ^Z 3 = 83 ^Z 4 = 37 ^Z 5 = 27 ^Z 6 = 27 ^Z 7 = 64 ^Z 8 = 72 ^Z 9 = 30 ^Z 1O »30 ^Z 11 = 90 Z ₁₂ = 80 Z ₁₃ = 80 ^Z 14 ² 15

The controllability of the continuously variable transmission is sz = 6 »

In the contexts, the speed ng of the arm K of the planetary gear and the speed il ^ of the sun gear z ^

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contain, with which the speed n ^> of the internal ring gear z ^ o can be calculated, which is naturally equal to a ^ and with the speed n ^ of the winding 5

matches, if ^Z 1 < = 1i1 is. ^ ^ ^ J -1.5 iain I ₉ 64 ζ * • fg. 28 _ # 6 · ^ n -1 min ' ^Z 1. Z ₂ ! 2 ₌ ^z 10 458 * 500 ' 72 s 1,800 = 500 * 6 · I ^ = \ l- ^{: Z} 15 = 500 ^Z 7

For an opposite rotation:

* Himax 4 _n 1800

ⁿ fmax ^s ^ 3BIaX ⁼ 3 "" 5 ^{13 =} "T ~

β -600 + 150 β -450 min ^-1

For a rectified rotation:

, 1800 . 4 _♦ ΛΛΟ \ -

=. + 600 + 150 = + 750 min " ¹

ⁿ = 600 min, which proves that the relative speed does not change with a change of direction and the task can be solved with stepped gear transmissions _e

Of course, the tape winder according to the invention can be used not only for cables but also for other products to be finished. The application described above is only an example, which illustrates that the object is completely fulfilled with this invention.

Claims (1)

231995 6 Inventions addressed: Bandwicke lmschine for wrapping pipes /; Rods, rods ^ u. The like. With a band-shaped material consisting of each provided with a gear extractor and winder, and a gearbox, a transmission unit, gear ratios and a winding head, wherein the gearboxes of the extractor and the updater kinematically connected to each other and with the gearbox are and a plurality of kinematically connected tape winder are arranged one behind the other, characterized in that in the drive of each tape winder (4-) between the gear ratio and the winding head (5) a planetary gear is arranged, the internally toothed wheel (z / jo) with the winding head (5) his arm (K) with the gearbox (7) and its sun gear (Z ^ ₁ ) are in a rotary motion transmitted to the gearbox unit of the tape winding drive · 5 sheets of drawings "