JP2002220752A - Spindle for spinning machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the transmittance of the vibration of a spindle shaft to a spindle rail and to a motor housing of a single spindle-driving motor through a bolster when a high speed operation, and to prevent the generation of a resonance point caused by a buffer member at a spindle rotation speed of about 10,000 rpm. SOLUTION: The spindle shaft 7 of the spindle 1 is rotatably supported in a bolster 3 fixed to a spindle rail 2 through bearings 4, 5. A buffer member 11 is disposed between the upper flange 9 of the housing 8 of the bolster 3 and the flange 10a of a support cylinder 10 fixed to the spindle rail 2. The buffer member 11 has a structure in which a partition plate 14 is nipped with a plurality of viscoelastic layers 13. The viscoelastic layers are formed in a ring-like shape and horizontally disposed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a spindle of a spinning machine such as a ring spinning machine and a ring twisting machine, and more particularly, to a spinning machine in which a spindle shaft is rotatably supported via a bearing on a bolster fixed to a mounting table. It concerns the spindle.

[0002]

2. Description of the Related Art In a spinning machine such as a ring spinning machine and a ring twisting machine, as shown in FIG. It is rotatably supported via a pin 64. And the spindle shaft 61a
In order to prevent the transmission of the vibration of the spindle rail 62 and the transmission of the vibration of the spindle rail 62 to the spindle shaft 61a, a cushioning member 65 made of a rubber damper is used. The buffer member 65 includes an upper flange 63a of the bolster 63,
The bolster 63 is fixed to the spindle rail 62 via the buffer member 65 by being sandwiched between a flange 66 a of the support cylinder 66 fixed to the spindle rail 62 and tightening the support cylinder 66 with a nut 67.

Further, instead of a viscoelastic body as a cushioning member,
It is also conceivable to use a dry friction body. Japanese Patent Application Laid-Open No. 3-59120 discloses a so-called single-spindle drive spinning machine in which spindles of each spindle are driven by individual motors.
It discloses a rubber metal element fitted between an outer ring of a bearing of a spindle to which a rotor of a motor is fixed and an inner surface of a spindle housing. The motor housing is fixed to the spindle housing.

[0004]

As described above, when the bolster 63 is fixed to the spindle rail 62 via the buffer member 65, the vibration of the spindle shaft 61a is transmitted to the spindle rail 62 and the motor housing driven by a single spindle. Can be suppressed to some extent. However, conventionally, since the cushioning member 65 is formed of a single-layer rubber damper, the buffer member 65 is operated at high speed (for example, when the spindle rotation speed is 20,000 rpm).
In the case of the above, the suppression effect did not work effectively. In addition, a resonance point due to the material (physical properties) and shape of the buffer member 65 often exists near the spindle rotation speed of 10,000 rpm. Resonance occurs. As a result, there has been a problem that the yarn quality is reduced.

In the configuration disclosed in Japanese Patent Application Laid-Open No. 3-59120, a rubber metal element (buffer member) is provided between the spindle and the spindle housing, so that vibration of the spindle is attenuated. It is transmitted to the motor housing. However, it is difficult to attach the cushioning member between the outer ring of the bearing and the inner surface of the cylindrical motor housing in a strong and centered state. In addition, there is a problem that the diameter of the housing becomes large and the entire spindle device becomes large.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and has as its object the object of the present invention is to provide a bolster mounting base and a vibration of a spindle shaft even during high-speed operation (for example, when the spindle rotation speed is 20,000 rpm or more). Transmission to the motor housing of the single spindle drive motor can be prevented,
An object of the present invention is to provide a spinning spindle in which a resonance point due to the buffer member does not exist near 10,000 rpm of the spindle rotation speed and the buffer member can be easily assembled.

[0007]

According to the first aspect of the present invention, there is provided a spinning machine in which a spindle shaft is rotatably supported via a bearing on a bolster fixed to a mounting table. And mounting the bolster housing having the bearing in a state in which a cushioning member in which a partition plate is sandwiched between a plurality of layers of viscoelastic bodies is present between the housing of the bolster having the bearing and a support cylinder fixed to the mounting base. Fixed to the table.

In the present invention, since a buffer member in which a partition plate is sandwiched between a plurality of layers of viscoelastic bodies exists between the bolster housing and a mounting base (for example, a spindle rail), the volume of the buffer member is increased. Are the same, the damping constant becomes larger than that of a single-layer viscoelastic body. Therefore, even during a high-speed operation (for example, when the spindle rotation speed is 20,000 rpm or more), the transmission of the vibration of the spindle shaft to the mounting table is suppressed, and the spindle rotation speed is reduced to 1%.
It is possible to avoid the generation of a resonance point due to the buffer member near 0000 rpm. Also, the assembling of the buffer member is simplified.

According to a second aspect of the present invention, in the first aspect of the present invention, the plurality of viscoelastic bodies are formed in a ring shape and arranged horizontally, and the buffer member is provided on an upper portion provided in the housing. It is sandwiched between a flange and a flange formed on the support cylinder. Therefore, in the present invention, the spring constant in the compression direction can be increased while the spring constant in the shear direction of the cushioning member is kept constant.

According to a third aspect of the present invention, in the second aspect of the present invention, the respective layers of the plurality of viscoelastic bodies are connected to each other on an inner peripheral side or an outer peripheral side. Therefore, in the present invention, when the cushioning member is manufactured by insert molding, the manufacturing becomes easy.

According to a fourth aspect of the present invention, in the first aspect of the invention, the plurality of viscoelastic bodies are formed of different materials. Therefore, in the present invention, the vibration damping characteristics and dimensions of the cushioning member can be changed without increasing the cost.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment in which the present invention is embodied in a belt driven spindle will be described below with reference to FIG.

The spindle 1 is rotatably supported by bearings 4 and 5 on a bolster 3 fixed to a spindle rail 2 as a mounting base. The spindle 1 includes a blade portion 6 and a spindle shaft 7 fixed to a lower central portion of the blade portion 6. The spindle 1 is rotatably supported by bearings 4 and 5 with the spindle shaft 7 inserted into the bolster 3. I have.
The blade unit 6 includes a blade (not shown) on which a bobbin is mounted, a spindle base 6a formed below the blade and having a larger diameter than the blade, and a belt hook 6b formed below the spindle base 6a. Are integrally formed.

The housing 8 of the bolster 3 is formed in a cylindrical shape with a bottom. Radial bearings 4 are provided at two upper and lower portions, and a thrust bearing 5 which contacts the lower end of the spindle shaft 7 is provided at a lower portion. . An upper flange 9 is provided on an upper portion of the housing 8. Upper flange 9 and flange 1 of support tube 10 fixed to spindle rail 2
The cushioning member 11 is fixed between the cushioning member 11 and the cushioning member 0a. The flange 10a has a mounting hole 2a formed in the spindle rail 2.
And is fastened and fixed to the spindle rail 2 by a nut 12.

The cushioning member 11 has a configuration in which a partition plate 14 is sandwiched between a plurality of layers of viscoelastic bodies 13, and in this embodiment, two layers of viscoelastic bodies 13 are provided. The viscoelastic body 13 and the partition plate 14 are formed in an annular flat plate shape having a hole larger than the outer diameter of the housing 8, and are arranged horizontally. The partition plate 14 is formed of a rigid body (for example, a steel plate). The viscoelastic body 13 is formed of vulcanized rubber. The thickness and diameter of the viscoelastic body 13 are appropriately changed according to the spring constant in the shear direction and the compression direction required for the cushioning member 11.

The cushioning member 11 pressurizes and heats the rubber mixed with sulfur or the like and the mold in a state where the partition plate 14 is arranged at a predetermined position in the mold, for example. It is manufactured by pressing into a mold and vulcanizing.

When assembling the bolster 3,
The cushioning member 11 is fixed between the upper flange 9 fitted and fixed to the housing 8 and the flange 10a of the support cylinder 10 with an adhesive.

Next, the spindle 1 constructed as described above
The operation of will be described. Belt (not shown) during spinning operation
, The spindle 1 is rotated, and the yarn is wound on a bobbin (not shown) mounted on the spindle 1. When the spindle 1 rotates, the spindle shaft 7 is slightly tilted with respect to the vertical direction due to the yarn tension or the imbalance of the center of gravity of the spindle 1 itself, and vibration occurs. Then, the vibration increases at the time of high-speed rotation or near the resonance point.

This vibration is transmitted to the housing 8 via the radial bearing 4, and the vibration is transmitted to the spindle rail 2 via the cushioning member 11 and the support cylinder 10. Also,
The vibration of the spindle rail 2 causes the support cylinder 10 and the cushioning member 1
1, transmitted to the spindle 7 via the housing 8 and the radial bearing 4. If the vibration is not effectively attenuated in the buffer member 11, the yarn quality is reduced and the durability of the spindle device is also reduced.

Due to the inclination (vibration), forces in the shearing and compressing directions act on the cushioning member 11. Since the cushioning member 11 has a plurality of layers (two layers in this embodiment) of the viscoelastic body 13 with the partition plate 14 interposed therebetween, the viscoelastic body 13 keeps the spring constant in the shear direction constant, that is, 1 The spring constant in the compression direction can be increased with the same spring constant as the conventional structure in which the cushioning member is formed by the viscoelastic body of the layer. Further, the partition plate 14 existing between the viscoelastic bodies 13 functions as a dummy mass, that is, the partition plate 14 vibrates instead of the spindle 1, and the damping constant in the shear direction increases. As a result, even when the spinning machine is operated at high speed, the vibration of the spindle 1 is effectively attenuated, and the vibration of the spindle 1 is suppressed from increasing.

This embodiment has the following effects. (1) The housing 8 of the bolster 3 supporting the spindle shaft 7 via the bearings 4 and 5 is attached to the spindle rail 2 via the cushioning member 11 in which the partition plate 14 is sandwiched between a plurality of layers of viscoelastic bodies 13. Fixed. Therefore, the cushioning member 11
When the volume is the same, the damping constant becomes larger as compared with the conventional configuration using one layer of viscoelastic body, and the vibration of the spindle shaft 7 is suppressed from increasing even during high-speed operation. Also,
It is possible to avoid generation of a resonance point due to the buffer member near 10,000 rpm of the spindle rotation speed. As a result, a decrease in yarn quality is prevented, and the durability of the bearings 4 and 5 is improved.

(2) The buffer member 11 is provided between the upper flange 9 provided on the housing 8 and the flange 10a of the support cylinder 10 fixed to the spindle rail 2. Therefore, the mounting of the buffer member 11 is simplified.

(3) Since the cushioning member 11 is formed in an annular shape, it is easier to mount the cushioning member 11 between the upper flange 9 and the flange 10a. (4) Since the cushioning member 11 is used in a state where the plurality of viscoelastic bodies 13 are arranged horizontally, the spring constant in the compression direction is increased while the spring constant in the shearing direction of the cushioning member 11 is kept constant. be able to.

(5) Since the viscoelastic body 13 and the partition plate 14 of the buffer member 11 are mutually fixed by heat fusion,
As compared with the case where both are fixed with an adhesive, the adhesive strength can be increased, and it becomes easier to secure the necessary adhesive strength.

The embodiment is not limited to the above, and may be embodied as follows, for example. The material of the viscoelastic body 13 is not limited to vulcanized rubber, but may be any material having a damper action, for example, an elastomer.

○ As shown in FIG.
The materials of the plurality of viscoelastic bodies 13 constituting 1 may be made of different materials. In this case, it is possible to relatively easily adjust the vibration isolation characteristics and dimensions of the cushioning member 11 to desired values required for the spindle without increasing the cost. The different materials mentioned here do not mean only those having different types of rubbers and elastomers, but include different materials even when the same rubber has a different degree of vulcanization.

A plurality of viscoelastic bodies 13 constituting the cushioning member 11 are formed in a ring shape, and the viscoelastic bodies 13 are connected to each other on the outer peripheral side as shown in FIG. It is good also as a structure mutually connected by the peripheral side. In this case, when the cushioning member 11 is manufactured by insert molding, the structure of the mold is simplified and the manufacturing cost can be reduced.

○ As shown in FIG.
The viscoelastic body 13 constituting 1 is composed of three layers,
It may be a layer or more. In this case, each layer is not limited to the same material but may be made of different materials.
The layers may be made of the same material.

O Viscoelastic body 13 constituting buffer member 11
Instead of the configuration in which the partition plates 14 are arranged horizontally and stacked vertically, the viscoelastic body 13 and the partition plates 14 may be arranged concentrically, as shown in FIG. Then, the cushioning member 11 is disposed between the inner peripheral surface of the large diameter portion 10 b formed on the upper part of the support cylinder 10 and the outer peripheral surface of the housing 8. In this case, there is no need to provide the housing 8 with an upper flange.

Instead of forming the buffer member 11 separately and fixing it to the upper flange 9 and the flange 10a of the support tube 10 with an adhesive, the upper flange 9 and the support tube 10 are replaced.
And may be integrally formed. For example, in a state where the upper flange 9 and the support cylinder 10 are set together with the partition plate 14 in a mold, rubber in a heated and melted state is press-fitted, and the buffer member 11 is integrally formed with the upper flange 9 and the support cylinder 10. In this case, the adhesive strength between the upper flange 9 and the support cylinder 10 and the cushioning member 11 is increased, and the damping effect of the cushioning member 11 is further improved.

The viscoelastic body 13 constituting the cushioning member 11
Alternatively, the partition plate 14 may be fixed with an adhesive. The housing 8 and the upper flange 9 may be integrally formed.

The partition plate 14 is not limited to a metal plate such as a steel plate or an aluminum plate, but may be a resin plate or a ceramic plate. Further, the thickness of the partition plate 14 may be appropriately changed. ○ Not only a spindle device in which a plurality of weights are driven by a common drive belt, but also a rotor fixed so as to be able to rotate integrally with the spindle shaft and a stator fixed in a motor housing supported by the spindle rail. May be applied to a single spindle drive spindle device driven by a motor. In this case, for example, a large-diameter portion (attachment portion) as shown in FIG. 3B is provided on the upper portion of the support cylinder 10, and a motor housing is attached to the outer peripheral surface of the large-diameter portion.

The viscoelastic body 13 constituting the cushioning member 11
Is not limited to an annular shape, and a configuration may be employed in which a plurality of viscoelastic bodies 13 are fixed to the partition plate 14 so that the whole is substantially annular. The spindle 1 is not limited to the one in which many spindles 1 are mounted on the spindle rail 2 which is a common mounting base, and may be applied to a spinning machine having an independent mounting base for each weight.

The invention (technical idea) that can be grasped from the above embodiment will be described below. (1) In the invention according to any one of claims 1 to 4, the spindle is provided in a rotor fixed to the spindle shaft so as to be integrally rotatable, and in a motor housing supported by a spindle rail. 4 is a single spindle drive spindle driven by a motor having a fixed stator.

(2) In the invention of (1), the motor housing is mounted on a cylindrical mounting portion formed on an upper portion of the support cylinder.

[0036]

As described above in detail, according to the first to fourth aspects of the present invention, even during high-speed operation (for example, when the spindle rotation speed is 20,000 rpm or more), the vibration of the spindle shaft is reduced by the bolster. And transmission to the motor mount of the single-spindle drive motor can be prevented. In addition, it is possible to avoid the existence of a resonance point due to the buffer member near 10,000 rpm of the spindle rotation speed,
In addition, the buffer member can be easily assembled.

[Brief description of the drawings]

FIG. 1 is a partial schematic cross-sectional view showing one embodiment.

FIG. 2 is a partial schematic cross-sectional view showing another embodiment of the cushioning member.

3A is a partial schematic cross-sectional view showing another embodiment of the buffer member, and FIG. 3B is a partial schematic cross-sectional view showing another embodiment of the buffer member and the support cylinder.

FIG. 4 is a schematic partial sectional view of a conventional device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... spindle, 2 ... spindle rail as a mounting stand, 3 ... bolster, 4 ... radial bearing, 5 ... thrust bearing, 7 ... spindle shaft, 8 ... housing, 9 ... upper flange, 10 ... support cylinder, 10a ... flange, 11: buffer member, 13: viscoelastic body, 14: partition plate.

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Masashi Kaneko 2-1-1, Toyota-cho, Kariya-shi, Aichi Prefecture Inside Toyota Industries Corporation (72) Inventor, Nori Fujii 2-1-1, Toyota-cho, Kariya-shi, Aichi Prefecture F term in Toyota Industries Corporation (reference) 4L056 AA02 AA32 BD32 BD42 BD43 BD46 FA07

Claims (4)

[Claims] 1. A spindle of a spinning machine in which a spindle shaft is rotatably supported via a bearing on a bolster fixed to a mount, wherein a housing of the bolster having the bearing is fixed to the mount. A spindle for a spinning machine fixed to the mounting table in a state where a buffer member in which a partition plate is sandwiched between a plurality of layers of viscoelastic bodies exists between the cylinder and a cylinder. 2. The plurality of viscoelastic bodies are formed in a ring shape and arranged horizontally, and the buffer member is sandwiched between an upper flange provided on the housing and a flange formed on the support cylinder. The spindle for a spinning machine according to claim 1, wherein 3. The spinning spindle according to claim 2, wherein the layers of the plurality of viscoelastic bodies are connected to each other on an inner peripheral side or an outer peripheral side. 4. The spinning spindle according to claim 1, wherein the plurality of viscoelastic bodies are formed of different materials.