JPH0513630U - Fixing device for vertical axis of can seam tarret - Google Patents

Abstract

(57) [Abstract] [Purpose] To obtain a fixing device for a turret vertical shaft that can prevent the inclination of the sliding hub with respect to the center of the sleeve and the inclination of the mounting surface of the sliding hub and the upper turret. A vertical shaft fixing device includes an elastic ring 19 arranged at a position closest to a sleeve 11 of a sliding hub 12, and an oil hole 14 for deforming the elastic ring 19 by hydraulic pressure.
Piston 15 for generating hydraulic pressure in this oil hole 14
And a piston screw 16 for operating the piston 15. When the piston screw 16 is screwed in, the hydraulic piston 15 moves to generate hydraulic pressure,
The elastic ring 19 is deformed by this hydraulic pressure. Due to the deformation of the elastic ring 19, a frictional force is generated between the sleeve 11 and the sliding hub 12, and the sleeve 11 and the sliding hub 12 are fixed by this frictional force.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a fixing device for a can shimmer turret vertical shaft for tightening a can and a can lid.

[0002]

[Prior Art]

Referring to FIGS. 7 and 8, the prior art will be described. FIG. 7 is a side sectional view of a conventional can seam turret vertical axis fixing device, and FIG. 8 is a sectional view taken along line EE in FIG. 8, the can seam turret vertical shaft fixing device is composed of a sleeve 30, a sliding hub 31, a key 33, a cap 32, a cap tightening bolt 35, and the like. The sleeve 30 has a shaft diameter φd ₁ and the sliding hub 31 has an inner diameter φD ₁ , and the rotation of the sleeve 30 is transmitted to the sliding hub 31 between the sleeve 30 and the sliding hub 31. A key 33 having a width w is provided. Further, a cap 32 is provided to fix the vertical axis of the sleeve 30 and the sliding hub 31.

In FIG. 7, reference numeral 36 denotes a P. C. A lower turret is rotated by D (pitch circle diameter), and an upper turret 37 is also rotated by a not shown seaming roll or the like for winding the can. In the vertical shaft fixing device, the height of the turret is changed by changing the type of can and the like by changing the height H between the lower turret 36 and the upper turret 37. The lower turret 36 and the sleeve 30 are fixed at the same height, and the shaft diameter of the sleeve 30 is φd. ₁ And inner diameter of sliding hub 31 φD₁The sliding hub 31 moves up and down between them, which changes the height of the upper turret 37 connected to the sliding hub 31.

The sleeve 30 and the sliding hub 31 are fixed to each other by fixing the cap 32 at a portion where the notch is formed on a portion of the sliding hub 31 to the screw 34 provided on the sliding hub 31 side with a tightening bolt. By tightening 35, a frictional force is generated with the sleeve 30. As a result, the sleeve 30 and the sliding hub 31 can be fixed in the height direction. The rotation of the sleeve 30 can be transmitted to the sliding hub 31 by the key 33 arranged in the key groove provided between the sleeve 30 and the sliding hub 31.

[0005]

[Problems to be solved by the device]

By the way, in the case where the sleeve 30 and the sliding hub 31 are fixed in the height direction as shown in FIG. 7, the sliding gap and the rotation transmission between the shaft diameter φd _{1 of the} sleeve 30 and the inner diameter φD ₁ of the sliding hub 31 are transmitted. key groove width w ₂ of the key width w and the sleeve 30 of the key 33 for, for sliding gap such as a combination clearance key groove width w ₁ of the sliding hub 31 is present, the cap 32 to the sliding hub 31 When tightened with the tightening bolts 35, the sliding gap between the sleeve 30 and the sliding hub 31 and the sliding gap between the key / key groove portion are brought close to each other in one direction, so that the sliding hub 31 is positioned with respect to the center of the sleeve 30. This will cause a slope of δ ₁ . Along with this, the mounting surfaces of the sliding hub 31 and the upper turret 37 are also inclined by δ ₂ , and as a result, the sliding hub 31 is displaced by δ _{3 in} the plane position as shown in FIG. It will be. These deviations are caused by the deterioration of the parallelism between the lower turret 36 and the upper turret 37. C. This causes the displacement of D and the planar rotational position displacement of the lower turret 36 and the upper turret 37, which affects the winding performance of the can and the can lid.

Therefore, in the above-mentioned conventional device, in order to obtain the parallelism between the lower turret 36 and the upper turret 37, a shim is formed on the mounting surface of the sliding hub 31 and the upper turret 37, or the flat surfaces of the upper turret 37 and the lower turret 36 are arranged. It is necessary to adjust the amount of displacement of the upper turret 37 in the direction of rotation with respect to the amount of planar displacement when the cap 32 is tightened in order to perform the automatic alignment. It takes time to adjust the assembly.

Therefore, the present invention provides an oil hole 14 having an elastic ring structure at a position near the sleeve 11 of the sliding hub 12 as a fixing device in the height direction of the sleeve and the sliding hub. By applying hydraulic pressure, the elastic ring portion 19 is deformed toward the sleeve 11 side, a frictional force is generated between the elastic ring portion 19 and the sleeve 11, and the sleeve 11 and the sliding hub 12 are fixed in the height direction, or An elastic ring 24 is provided at the contact portion between the sliding hub and the sleeve, and by tightening the elastic ring 24 with the bolt 25, the elastic ring 24 is deformed toward the sleeve 21 side and a frictional force is generated between the elastic ring 24 and the sleeve 21 to cause the sleeve. 21 has proposed a structure in which the height direction of the sliding hub 22 and the sliding hub 22 are fixed, thereby providing a fixing device for the vertical axis of the sleeve and the sliding hub of the prior art. It tries to solve the drawbacks.

[0008]

[Means for Solving the Problems]

 For this reason, the present invention provides a ring-shaped elastic ring at the sleeve hub side of the sliding hub in the turret vertical shaft sliding part of the can seamer, which is a device for winding and tightening the can and the can lid. It is deformed to the sleeve side by an external force to generate a frictional force between the sliding hub and the sleeve, and this is a means for solving the problem.

[0009]

[Action]

 The present invention generates hydraulic pressure by screwing the piston screw into the hydraulic piston provided on the sliding hub, and deforms the portion of the elastic ring portion that contacts the sleeve in the direction of arrow 10 toward the sleeve to generate frictional force. Secure the sleeve and sliding hub. Also, by tightening the tightening bolt attached to the lower part of the elastic ring of the sliding hub, the elastic ring is deformed in the directions of the arrows 28 and 29 and a frictional force is generated between the elastic ring and the sleeve, so that the sleeve slides. Secure the hub. In the present invention, since the elastic ring portion is in contact with the entire circumference of the sleeve, it is possible to uniformly generate the frictional force by the uniform hydraulic pressure and the uniform bolt tightening, and it is possible to uniformly tighten the sleeve. .. As a result, it is possible to prevent the sliding hub from tilting with respect to the center of the sleeve and the sliding hub and the upper turret from being tilted.

[0010]

【Example】

1 to 3 show a first embodiment of the present invention, in which 11 is a sleeve, 12 is a sliding hub, and 13 is a transmission key. , 14 is an oil hole (annular), 15 is a hydraulic piston, 16 is a piston screw, 17 is a lower turret, 18 is an upper turret, 19 is an elastic ring portion, 10 is an elastic ring deformation direction, φd ₂ is a sleeve shaft diameter, φD ₂ is the inner diameter of the sliding hub. The vertical shaft fixing device according to the present embodiment includes an elastic ring portion 19 arranged at a position closest to the sleeve 11 of the sliding hub 12, an oil hole 14 for deforming the elastic ring portion 19 by hydraulic pressure, and an oil hole 14 for the elastic ring portion 19. It is composed of a piston 15 for generating a hydraulic pressure and a piston screw 16 for operating the piston 15.

The elastic ring portion 19 has a wall thickness that has a strength necessary to deform due to hydraulic pressure and to maintain a frictional force at the time of fixing, and particularly in consideration of a machining surface, t = 1 mm. Before and after is suitable. Although the material is not specified, alloy steel, carbon steel, etc. are suitable in consideration of strength. However, it goes without saying that the thickness and material may be other than the above. Further, in this embodiment, there are two elastic ring portions 19, but the number of elastic rings differs depending on the length of the sliding portion and is not specified in particular, but in consideration of the fixing characteristics and the processing aspect. Two places are appropriate. Also, regarding the oil holes and hydraulic pistons that apply hydraulic pressure to the elastic ring part, there is no regulation on the cross-sectional area of them if the required hydraulic pressure is obtained, and there is no particular regulation on the type of oil used. However, hydraulic oil is usually suitable as the hydraulic oil.

The vertical shaft fixing device having the above structure operates as follows. When the piston screw 16 provided on the sliding hub 12 is screwed in, the hydraulic piston 15 moves to generate hydraulic pressure. The generated hydraulic pressure acts on the elastic ring portion 19 through the oil hole 14, and the portion 19 of the elastic ring portion 19 that contacts the sleeve is deformed toward the sleeve 11 in the direction of arrow 10 to generate a frictional force. The sleeve 11 and the sliding hub 12 are fixed by this frictional force. In this embodiment, the structure in which the sliding hub 12 has a built-in hydraulic pressure source is shown as an example, but a structure in which hydraulic pressure is supplied from an external hydraulic source may be used.

Next, a second embodiment of the present invention will be described. FIGS. 4 to 6 show a second embodiment of the present invention, in which 21 is a sleeve, 22 is a sliding hub, and 23 is Transmission key, 24 elastic ring, 25 elastic ring tightening bolt, 26 lower turret, 27 upper turret, 28 and 29 elastic ring deformation direction, L elastic ring width, φd ₃ sleeve diameter _, φD ₃ is the inner diameter of the sliding hub. The vertical shaft fixing device of this embodiment comprises an elastic ring 24 provided at a contact portion between the sliding hub 12 and the sleeve 11, and a bolt 25 for tightening and deforming the elastic ring. Therefore, the elastic ring 24 is generated by tightening the tightening bolt 25 attached to the lower part of the elastic ring 24 of the sliding hub 22. The friction force at this time fixes the sleeve 21 and the sliding hub 22.

The elastic ring portion 24 may be deformed as shown in FIG. 5 by the tightening bolts 25 and has a strength to maintain the frictional force at the time of fixing, and neither width nor length is specified. Although the material aspect is not specified, alloy steel or spring steel is suitable considering the strength aspect. Further, the number of the elastic ring tightening bolts 25 is not specified because it depends on the circumference and strength of the elastic ring. In this embodiment, the tightening is shown at four places. Further, the diameter of the tightening bolt 25 also depends on the strength of the width L of the elastic ring and is not specified. In this embodiment, the tightening bolts 25 are individually tightened from the lower surface of the sliding hub 22 to deform the elastic ring. However, the tightening bolts 25 are integrally rotated by the interlocking gear and simultaneously tightened. It may be a structure that is crowded.

[0015]

[Effect of the device]

 As described in detail above, according to the present invention, the sleeve of the turret vertical shaft and the sliding hub can be fixed in the height direction uniformly over the entire circumference of the elastic ring portion of the sleeve and the sliding hub. , The inclination of the sliding hub with respect to the center of the sleeve and the inclination of the mounting surface of the manual hub and the upper turret can be prevented, and the parallelism between the upper turret and the lower turret can be easily achieved. It also facilitates planar alignment and assembly adjustment. Furthermore, the power source that causes the elastic ring to be deformed can be built-in, especially in the hydraulic type, and it can be relatively small, so that it is possible to measure the automation of the fixing work of the turret vertical axis, which is an excellent effect. It is a thing.

[Submission date] December 24, 1991

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0001

[Correction method] Change

[Correction content]

[0001]

[Industrial applications]

The present invention relates to a can seamer turret vertical shaft fixing device for winding and tightening a can and a can lid.

[Procedure Amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0013

[Correction method] Change

[Correction content]

Next, a second embodiment of the present invention will be described. FIGS. 4 to 6 show a second embodiment of the present invention, in which 21 is a sleeve, 22 is a sliding hub, and 23 is Transmission key, 24 is an elastic ring, 25 is an elastic ring tightening bolt, 26 is a lower turret, 27 is an upper turret, 28 and 29 are elastic ring deformation directions, L is the width of the elastic ring, φd ₃ is the axial diameter of the sleeve. φD ₃ is the inner diameter of the sliding hub. The vertical shaft fixing device of this embodiment comprises an elastic ring 24 provided at a contact portion between the sliding hub 12 and the sleeve 11, and a bolt 25 for tightening and deforming the elastic ring. Therefore, the elastic ring 24 is deformed by tightening the tightening bolt 25 attached to the lower part of the elastic ring 24 of the sliding hub 22. The friction force at this time fixes the sleeve 21 and the sliding hub 22.

[Procedure 3]

[Document name to be amended] Statement

[Correction target item name] 0014

[Correction method] Change

[Correction content]

The elastic ring portion 24 may be deformed as shown in FIG. 5 by the tightening bolts 25 and has a strength to maintain the frictional force at the time of fixing, and neither width nor length is specified. Although the material aspect is not specified, alloy steel or spring steel is suitable considering the strength aspect. Further, the number of the elastic ring tightening bolts 25 is not specified because it depends on the circumference and strength of the elastic ring. In this embodiment, the tightening is shown at four places. The diameter of the tightening bolt 25 also differs depending on the width L and the strength of the elastic ring, and is not specified. In this embodiment, the tightening bolts 25 are individually tightened from the lower surface of the sliding hub 22 to deform the elastic ring. However, the tightening bolts 25 are integrally rotated by the interlocking gear and simultaneously tightened. It may be a structure that is crowded.

[Procedure 3]

[Document name to be amended] Statement

[Correction target item name] 0015

[Correction method] Change

[Correction content]

[0015]

[Effect of the device]

As described in detail above, according to the present invention, the sleeve of the turret vertical shaft and the sliding hub can be fixed in the height direction uniformly over the entire circumference of the elastic ring portion of the sleeve and the sliding hub. The inclination of the sliding hub with respect to the center of the sleeve and the inclination of the mounting surface of the manual hub and the upper turret can be prevented, and the parallelism between the upper turret and the lower turret can be easily achieved. It also facilitates planar alignment and assembly adjustment. Further such as by requiring that possible internal and relatively small in a power source is particularly hydraulic type generating a deformation in the elastic ring, excellent effects such as the automation of fixed working turret vertical axis in FIG. Rukoto becomes possible It plays.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view of a turret vertical shaft fixing device according to a first embodiment of the present invention.

FIG. 2 is a detailed view of a B part in FIG.

3 is a cross-sectional view taken along the line AA of FIG.

FIG. 4 is a vertical cross-sectional view of a turret vertical shaft fixing device according to a second embodiment of the present invention.

5 is a detailed view of section D in FIG. 4. FIG.

6 is a cross-sectional view taken along line CC of FIG.

FIG. 7 is a vertical sectional view of a conventional turret vertical shaft fixing device.

8 is a sectional view taken along line EE of FIG.

[Explanation of symbols]

11, 21 Sleeve 12, 22 Sliding hub 13, 23 Transmission key 14 Oil hole 15 Hydraulic piston 16 Piston screw 17, 26 Lower turret 18, 27 Upper turret 19 Elastic ring 10 Elastic ring deformation direction 24 Elastic ring 25 Elastic ring tightening Bolt 28, 29 Elastic ring deformation direction φd ₂ , φd ₃ Fixed rotating shaft Shaft diameter φD ₂ , φD ₃ Sliding hub inner diameter L Elastic ring width

Claims (1)

[Scope of utility model registration request] 1. A ring-shaped elastic ring is provided at a position nearest to a sleeve side of a sliding hub in a turret vertical shaft sliding portion of a can seamer, which is a device for winding and tightening a can and a can lid, and the elastic ring is used as an external force. The fixing device for the vertical axis of the can seam turret, which is characterized in that it is deformed toward the sleeve side to generate a frictional force between the sliding hub and the sleeve.