JPS61124478A - Double drum type winder or unwinder - Google Patents

Abstract

PURPOSE:To eliminate the driving unit of a winding drum shaft such as, fore placing gearing, a motor, etc. to simplify driving system and make the entire device compact by incorporating plural motors which directly drive plural winding drums respectively, in a machine body. CONSTITUTION:Each of winding drum shafts 39a, 39b can be directly rotated independently and at a desired speed of rotation, by exciting the windings of motors 43a, 43b and applying voltage to armatures 41a, 41b. Apart from the rotation of the winding drum shafts 39a, 39b, on the other hand, a machine body 31 is rotated by means of a driving motor 36 for revolution, to carry out the revolution of the winding drum shafts 39a, 39b. All the rotations of the machine body 31 and the winding drums 39a, 39b can be carried out independently and, accordingly, the machine body 31 can be rotated while carrying out winding or unwinding by rotating one winding drum shaft 39a, or 39b, to make the winding drum shaft 39a, 39b revolve, enabling changeover to one winding drum shaft 29b, or 39a. Thus, the driving system can be simplified making the whole unit compact.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a multi-body large winder and an unwinder having a plurality of winding drum shafts.

<Prior art> As a winding machine and unwinding machine used for winding and unwinding rolled material in rolling equipment and paper in paper manufacturing equipment, (abbreviation)
A double-barrel type is available for this purpose. This system rotatably supports a machine body with multiple winding drum shafts, and drives one winding drum shaft to perform winding or unwinding. It is designed to rotate and replace the winding drum axis.
Figure 4 shows an example of the conventional method.

The double-body winding machine or rewinding machine shown in Figs. 3 and 4 is disclosed in Japanese Patent Application Laid-Open No. 58-224996,
The figure shows a cross section along the horizontal plane, and FIG. 4 shows the side surface. In Figures 3 and 4, the machine body 1
1 is a main body part 11a and a cylindrical sleeve part 11 integrated therewith.
b, the end of the main body part 11a is supported by a plurality of support rows 213 installed on the foundation 12, and the end of the sleeve part flb is vertically adjustable on the support stand 14 on the foundation 12. The machine body 11 is rotatable by being supported by the provided spherical bearing 15. Also,
A gear 16 is engraved on the outer peripheral surface of the main body 11a of the machine body 11, and a gear 18 is meshed with the gear 16, which is connected to a revolution drive motor 17 installed on the foundation 12 via a speed reducer. The machine body 11 is driven and rotated by the operation of the revolution drive motor 17.

A pair of winding drum shafts 19a and 19b are rotatably supported on the main body portion 11a at symmetrical positions with respect to the center of rotation thereof, and gears 20a and 2 are respectively mounted on the shaft portions of the winding drum shafts 19a and 19b.
0b is fixed. Furthermore, a casing 21 is metal-supported in the center of the main body portion 11a. j Songers 22a and 22b are rotatably supported, and their external teeth 23a.

23b mesh with the gears 20a and 20b, respectively. Furthermore, 1 ring gear 22&, 22b < has internal teeth 24
a, 24b are formed, and these internal teeth 24a,
Two intermediate shafts 25a extending from the sleeve portion 11b into the main body portion 11a are provided at 24b.

Small gears 26a, 26b fixed to the ends of 25b
are intertwined with each other.

On the other hand, the other ends of the intermediate shafts 25a and 25b are connected to the output shafts 28a and 28b of the front gear device 27 installed on the foundation 12, respectively, and the input shaft 2 of the front gear device 27.
9a and 29b each have a winding drum shaft drive motor 30a,
30b are connected.

Therefore, in this device, the winding drum shaft drive motor 30a,
The rotational power of 30b is transmitted to the intermediate shafts 25m, 25b via the gear mechanism of the front gear device 27, and further from the small gears 26a, 26b to the ring gears 22a, 22b to the gear 201L.

The winding drum shafts 19a and 19b1C are transmitted through the winding drum shafts 20b to rotate the winding drum shafts 19a and 19b.

<Problems to be Solved by the Invention> As mentioned above, conventional double-barrel type winders and rewinders require a front gear device and have a complicated drive mechanism, so that the entire device There are problems in that the size of the device is large and maintenance is time-consuming. This is particularly an obstacle when configuring a device with a small capacity compactly and at low cost.

Furthermore, since the winding drum shaft drive motor and front gearing device are provided separately from the main body of the machine which is driven and rotated, the main body of the machine is relatively lightweight, and the coil is loaded on the ninth winding drum shaft. There is a problem in that the center of gravity is sometimes located on the winding drum axis, and the rotation support mechanism of the machine body becomes complicated to support it.

Means for Solving the Problems> The present invention solves these conventional problems by simplifying the drive system, making the entire device more compact, and reducing the support mechanism of the machine body. The purpose of this invention is to provide a multi-body type winder and rewinder that can be simplified.

In order to achieve this object, the structure of the multi-body type winding machine or rewinding machine according to the present invention is such that a machine main body rotatably supports a plurality of winding drum shafts, and the machine body rotatably supports the winding drums. A multi-body large winding machine or unwinding machine whose shaft can revolve, characterized in that a plurality of motors for directly rotationally driving each of the winding drum shafts are built into the main body of the machine.

Function> Each winding drum shaft is independently and directly driven by a plurality of motors built into the machine body. Furthermore, there is no front gear unit, motor, or other driving device for the winding drum shaft outside the machine body, and on the other hand, the weight of the machine body increases due to the dead weight of the motor inside the machine body.

<Example> An embodiment of the present invention will be described below with reference to the drawings.

Figure 1 is a cross-sectional view taken along the horizontal plane of one embodiment of the present invention;
The figure is a side view.

wc In FIG. 1 and FIG. 2, support members 32a each having a circular outer periphery are provided at both ends of the machine body 31.

32b and its supporting member 32a.

32b is a plurality of support rollers 34 installed on the foundation 33.
Since the machine body 31 is supported by K, the machine body 31 is rotatably supported. Further, a gear 35 is attached to one support member 32a.
is engraved, and the gear 3 is driven by a revolution drive motor 36 installed on the foundation 33 via a reduction gear 37.
8 is meshed with the gear 35, and the revolution drive motor 3
6, the main body 31 of the machine is driven to rotate.

A pair of winding drum shafts 39a and 39b are provided with bearings 40a at symmetrical positions about the center of rotation of the machine body 31.

They are each rotatably supported via 40b. An armature 41a is fixed to the outer periphery of the winding drum shaft 39a located inside the machine body 31, and a stator 42a that is located around the outer periphery of the armature 41a and cooperates with the armature 41a is fixed to the machine body 31. The armature 41a and stator 42& are connected to the winding drum shaft 39. This constitutes a driving motor 43a of a. Similarly, an armature 41b and a stator 42b are provided for the other winding drum shaft 39b4C.
The drive motor 43b of FIG. These motors 43a and 43b are connected to the counterwinding fp at the center of the machine body 31.
It is connected to an external power source (not shown) via a brush 44 protruding from J@.

According to such a configuration, it is possible to excite the windings of the motors 43a, 43b and apply the voltage K to the armatures 41&, 41b.
The winding drum shafts 39m and 39b can be independently and directly driven to rotate at arbitrary rotational speeds. On the other hand, these winding drum shafts 39a.

Separately from the rotation of the winding drum shaft 39b, the machine main body 31 is driven and rotated by the one revolution drive motor 36, and the winding drum shaft 39a is rotated.

39b is revolved. The rotation of the machine main body 310 and the rotation of the winding drum shafts 39a and 39b can all be performed independently. Therefore, while winding or unwinding is performed by rotating one winding drum shaft 39m or 39b, the machine main body 31
By rotating the winding drum shafts 39a and 39b, it is possible to revolve the winding drum shafts 39a and 39b and replace the winding drum shaft with the other winding drum shaft 39b or 39m.

<Effects of the Invention> As described above in detail with reference to one embodiment, according to the present invention, a front gear device, a winding drum shaft drive motor, an intermediate shaft, a shaft coupling, etc. attached thereto are provided outside the machine main body. Since the drive system can be eliminated, the drive system can be greatly simplified and the entire device can be made more compact. Furthermore, the weight of the machine body increases due to the weight of the motor inside the machine body, and even when the coil is loaded on the winding drum shaft, the overall center of gravity can be located within the machine body. It becomes possible to simplify the rotation support mechanism.

[Brief explanation of drawings]

1 and 2 show an embodiment K of the present invention, FIG. 1 is a sectional view taken along a horizontal plane, FIG. 2 is a side view, and FIGS. Figure 3 is a cross-sectional view along the horizontal plane.
FIG. 4 is a side view. In the drawings, 31 is a machine body, 34 is a support roller, 35 and 38 are gears, 36 is a revolution drive motor, 39a and 39b are winding drum shafts, and 43a and 43b are winding drum shaft drive motors. Patent applicant Mitsubishi Heavy Industries, Ltd. sub-agent Patent attorney Former Ishibe Shibu (and 1 other person) No. 1
Go to Figure 2

Claims (1)

[Claims] In a double-bore winder or unwinder in which a machine body rotatably supports a plurality of winding drum shafts, the machine body rotatably supports the winding drum shafts so that the winding drum shafts can revolve. A double-bore winder or unwinder characterized by incorporating a plurality of motors that directly rotate and drive each winding drum shaft.