JP3013303B2 - Rocking printing roll - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a printing roll mounted on a printing press.

[0002]

2. Description of the Related Art As a printing roll, there is an oscillating printing roll which swings in the left-right axis direction while its outer peripheral surface rotates. This oscillating printing roll is applied to one of two rolls rotating in contact with each other, which oscillates in the axial direction, and
The ink film or the water film adhering to the peripheral surface of the book roll is stroked in the axial direction to make it uniform.

[0003] A swinging device for swinging the swinging printing roll includes a swinging roll incorporated in the swinging printing roll. A first gear rotatably supported by a non-rotating fixed support shaft,
A second gear that rotates integrally with the roll base that constitutes the peripheral surface of the oscillating printing roll, a cam floor provided on one of the first gear and the second gear, and a peripheral grooved cam provided on the other gear The roll base body swings in the axial direction in accordance with the phase difference between the cam floor and the peripheral groove cam caused by the rotation difference between the first gear and the second gear. ing.

FIG. 1 shows a conventional oscillating printing roll 21, and 11 is a roll base. An outer peripheral surface layer 12 is laminated on the outer peripheral surface of the roll base 11, and a cylindrical member 13 is in close contact with the inner peripheral surface. The cylindrical member 13 is rotatably supported by a support shaft 14 via a stroke bearing or a needle bearing and is slidably supported in the axial direction. A part of the support shaft 14 is connected to the rotation center 15 of the cylindrical member 13.
A rotary shaft 22 is formed eccentrically from the shaft, and the rotary cylinder 16 is rotatably supported on the rotary shaft 16 via a needle bearing or a stroke bearing. One end of the rotary cylinder 16 is an external gear 17, and the other end is a groove cam 18.
It has become.

On the other hand, inside the cylindrical member 13, an internal gear 19 meshing with the external gear 17 and a cam floor 20 fitted to the groove cam 18 are provided. For this reason, when the oscillating printing roll 21 contacts another printing roll and rotates, the rotating cylinder 16 is rotated by the internal gear 19 that rotates integrally with the outer peripheral surface layer 12.

At this time, a cam floor 20 that rotates integrally with the internal gear 19 and a groove cam 18 that rotates integrally with the external gear 17
, A rotation difference occurs according to the difference in the number of teeth between the internal gear 19 and the external gear 17. As a result, the roll base 11 moves in the axial direction of the support shaft 14 integrally with the cylindrical member 13 by the displacement difference between the groove cam 18 and the cam floor 20 corresponding to the rotation difference.

[0007]

SUMMARY OF THE INVENTION
1, when the roll base 11 rotates at a constant speed, the rotating cylinder 1
6 rotates at a constant speed according to the ratio of the number of teeth of the internal gear 19 to the external gear 17, so that the roll base 11 smoothly swings from side to side as long as the cam surface of the groove cam 18 is formed smoothly. become. However, in reality, as if the roll base 11 pulsates, its movement in the axial direction is not smooth, and is jerky.

In order to investigate the cause, as shown in FIG. 2, in the process in which the external gear 19 is driven by the internal gear 17, ten internal teeth 23 of the internal gear 19
5, 20, and 25 are sequentially rotated, and accordingly, the external teeth 25 of the external gear 17 are also 10, 15, 20, 25
Rotate and move sequentially. However, the difference between the rotation angle of the internal gear 19 with respect to the rotation center 15 of the internal gear 19 and the rotation angle of the external gear 17, for example, the tenth external tooth 25-10 and the internal tooth 23- angle difference alpha _10, 15 th angular difference alpha ₁₅ with external teeth 25-15 and the inner teeth 23-15 and 10,
20 th angular difference alpha ₂₀ with external teeth 25-20 and the inner teeth 23-20, 25 th angular difference alpha ₂₅ with external teeth 25-25 and the inner teeth 23-25 are sequential engagement point 24 The number of teeth of the external gear 19 and the internal gear 17 passing therethrough is not directly proportional to the number of teeth but slightly increases and decreases, and the rotation angle of the internal gear 19 and the rotation angle of the external gear 17 with respect to the rotation center 15 are determined. It has been found that the change in the difference α is the cause of the jerky pulsation of the roll matrix 11.

[0009]

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to smooth the swinging in the axial direction of an oscillating printing roll incorporating an oscillating drive device by a gear train.

[0010]

The oscillating printing roll 36 according to the present invention comprises: (a) a roll base 11 rotatably supported on a support shaft 14 and slidably in the axial direction; The external gear 27A and the external gear 2 that are supported by a support plate 26 fixed to the
7B, an external gear 27 that meshes with the external gear 27A and the external gear 27B, respectively, and internal gears 28 and 29 that mesh with the left end and the right end of the external gear 27, respectively, and are rotatably supported by the support shaft 14, It is composed of a driving rotary cylinder 30 and a driven rotary cylinder 31 having the same rotation center as the roll base 11, and (b) between the driving rotary cylinder 30 and the roll base 11,
The rotation of the roll base 11 is transmitted to the driving rotary cylinder 30, and
Guide 32 for guiding roll base 11 in the axial direction of support shaft 14
(C) the support shaft 1 is provided on one of the outer peripheral surface of the driven rotary cylinder 31 and the inner peripheral surface of the roll base 11;
4 is provided with a cam 34 extending in the circumferential direction, and the other of them is provided with a cam floor 35 which engages with the cam 34. (d) The internal gear 28 of the driving rotary cylinder,
An outer gear 27A meshing with the internal gear 28 of the driving rotary cylinder, the external gear 27B meshing with the internal gear 29 of the driven rotary tube, the internal gear 29 of the driven rotating barrel constitutes a gear train, (e)
Number of teeth and module of external gear 27A and external gear 27B
Are the same, and the internal gear 28 of the driving rotary cylinder and the driven rotary cylinder
The first feature is that the number of teeth of the internal gear 29 is different.

The oscillating printing roll 36 according to the present invention comprises:
(A) The roll base 11 is rotatably supported on the support shaft 14 so as to be rotatable and slidable in the shaft center direction, and is supported by a support plate 26 fixed to the support shaft 14, and the shaft center is parallel to the support shaft 14. , An external gear 27A and an external gear 27B that rotate integrally with each other, an external gear 27 that meshes with the external gear 27A and the external gear 27B, respectively, and internal gears 28 and 29 that mesh with the left end and the right end of the external gear 27, respectively. (B) is constituted by a driving rotary cylinder 30 and a driven rotary cylinder 31 which are rotatably supported by the support shaft 14 and have the same rotation center as the roll base 11.
Guides 32 and 33 for transmitting the rotation of the roll base 11 to the drive rotary cylinder 30 and guiding the roll base 11 in the axial direction of the support shaft 14 are interposed between the driving rotary cylinder 30 and the roll base 11, (C) A cam 34 extending in the circumferential direction of the support shaft 14 is provided on one of the outer peripheral surface of the driven rotary cylinder 31 and the inner peripheral surface of the roll base 11, and the other of them is provided with:
A cam floor 35 that engages with the cam 34 is provided. (D) The internal gear 28 of the driving rotary cylinder, the external gear 27A that meshes with the internal gear 28 of the driving rotary cylinder, and the internal gear 29 of the driven rotary cylinder. an outer gear 27B, the internal gear 29 of the driven rotating barrel constitutes a gear train, (f) thereof external teeth
The number of teeth of the wheel 27A and the external gear 27B are different,
Number of teeth and module of the internal gear 28 and the internal gear 29 of the driven rotary cylinder
The second feature is that the two rules are the same.

A third feature of the oscillating printing roll 36 according to the present invention is that, in addition to any one of the first and second features, the external gear 27 is provided in the circumferential direction of the support shaft 14. A plurality of the shafts are supported on the support board 26 at intervals.

A fourth feature of the oscillating printing roll 36 according to the present invention is that, in addition to any one of the first and second features, the external gear 27 centered on the axis of the support shaft 14 is provided. On the opposite side, a shaft rod 37 is supported by the support board 26 in parallel with the support shaft 14.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An oscillating printing roll 36 according to the present invention.
The fifth feature is that, in addition to either the first or second feature, a total of two support boards 26 are provided at the left and right ends of the external gear 27.

A sixth feature of the oscillating printing roll 36 according to the present invention is that, in addition to any one of the first and second features, the guide 32 of the driving rotary cylinder 30 is provided with an axis of the support shaft 14. An elongated groove (3) provided on the outer peripheral surface of the driving rotary cylinder 30 in the center direction.
2), the guide 33 of the roll base 11 is a pulley (33) that is loosely fitted in the slot 32, the cam 34 is provided on the driven rotary cylinder 31, and the cam floor 35 is provided on the roll base 11. Is being done.

FIGS. 3 and 4 show a swing printing roll 36 according to the present invention, wherein the roll base 11 is formed of a metal pipe. On the inner peripheral surface of the roll base 11,
A cylindrical body 38 for projecting a shaft member rotatably supporting the pulley 32 and the cam floor 35 is in close contact with the cylindrical body 38.
Constitutes a part of the roll base 11. Reference numeral 12 denotes an outer peripheral surface layer laminated on the outer peripheral surface of the roll base 11, which constitutes the outer surface of the swing print roll 36. On the support shaft 14,
Two support discs 26 are mounted, and between the support discs 26, the support shaft of the external gear 27 and the shaft 3
7 are spanned. The drive shaft 30 and the driven rotation tube 31 are rotatably supported on the support shaft 14 by meshing the internal gears 28 and 29 with the left and right of the external gear 27. Thus, the external gear 27, the driving and driven rotating cylinder 30
The support shaft 14 to which 31 is attached is fitted into the cylindrical body 28 and supports the roll base 11 at the end.

A support bearing 39 is put on a portion of the support shaft 14 in sliding contact with the cylinder 28, and the support bearing 39 forms a part of the support shaft 14. On the outer peripheral surface of one end of the driving rotary cylinder 30 opposite to the internal gear 28, a pulley 3 that is elongated in the axial center direction of the driving rotary cylinder 30 and protrudes from the inner peripheral surface of the cylindrical body 38.
3 is provided with a long groove 32 into which the ball 3 is loosely fitted. Internal gear 29
On the outer peripheral surface of one end of the driven rotary cylinder 31 which is on the opposite side of the cam groove (see FIG. 2), a cam groove 35 which is continuous in the circumferential direction of the driven rotary cylinder 31 and protrudes from the inner peripheral surface of the cylindrical body 38 is fitted. 3
4) is provided.

Needles between the support shaft 14 and the driving rotary cylinder 30, the support shaft and the driven rotary cylinder 31, the support bearing 39 and the roll base 11 (38) are indicated by crosses (slightly horizontally long square marks). Bearings intervene and are rotatable between each other. Further, the side surfaces of the support bearing 39 and the roll base 11 (38), the side surfaces of the support bearing 39 and the driven rotary cylinder 31, the support plate 26 for the external gear and the driving rotary cylinder 30, and the support plate 26 for the external gear and the driven Stroke bearings illustrated by crosses (mesh marks) are interposed at places where rotating members are in contact with each other on the side surfaces, such as the side surfaces of the rotating cylinder 31, so that rotation of those members is not hindered. .

[0019]

In the oscillating printing roll 36 of the present invention, when the roll cylinder comes into contact with a plate cylinder, an ink form roll, a fan roll or the like which is driven to rotate by a motor, the roll base 11 (cylinder 38) is driven to rotate by these rolls. Is done. Then, the pulley 33 protruding from the inner peripheral surface is inserted into the slot 3.
By pressing the groove wall surface of No. 2, the driving rotary cylinder 30 is driven to rotate, and the internal gear 28 integral with the driving rotary cylinder 30 rotates the driven rotary cylinder 31 together with the internal gear 29 via the external gear 27.

At this time, the internal gears 28 and 29 are
Constitutes a kind of a mysterious gear mechanism together with the rotation angle of the cam floor 35 that rotates integrally with the roll base 11 and the cam 3 that rotates integrally with the driven rotary cylinder 31.
4, a difference corresponding to the difference in the number of teeth between the internal gear 28 of the driving rotary cylinder and the internal gear 29 of the driven rotary cylinder occurs, and the cam 34 acts on the cam floor 35 so that the roll base 11 It will swing along the core direction. At this time, the pulley 33 projecting from the roll base 11 is
Is loosely fitted in the elongated groove 32 that is elongated in the axial direction, so that the roll base 11 swings in the axial direction in the pulley 33.
It is not hindered by.

[0021]

According to the present invention , the internal gear 28 on the input side of the power of the rocking device for rocking the roll base 11 right and left.
The center of rotation of the (motor driving cylinder 30) and the center of rotation of the internal gear 29 (the driven rotation cylinder 31) on the power output side are both the axis of the support shaft 14, and the axis of the common support shaft 14 Is always directly proportional to the number of teeth of the internal gears 28 and 29 that sequentially pass through the meshing point of the internal gears 28 and 29 with the external gear 27. Since there is no deviation between the rotation centers, the driven rotary cylinder 31 on the output side has no pulsation (rattle), and the roll base 11 swings smoothly in the axial direction. As a result, the ink film or the water film adhering to the peripheral surface of the printing roll that is driven to rotate in contact with the oscillating printing roll 36 of the present invention is stroked by the oscillating printing roll 36 in the axial direction. An ink film or water film having a smooth and uniform thickness is obtained.

According to the first aspect of the present invention , the external gear 2
7A and the number of teeth and the module of the external gear 27B are the same,
Since one integrated gear is used for the external gear 27A and the external gear 27B, the production cost of the gears is low, and the swing print roll 36 is easy to assemble. In this case, one or both of the internal gear 28 of the driving rotary cylinder and the internal gear 29 of the driven rotary cylinder are set as transfer gears.

According to the fourth aspect of the present invention, since the internal gear 28 of the driving rotary cylinder and the internal gear 29 of the driven rotary cylinder have the same number of teeth and the same module, the production cost of the gears is reduced, and the oscillating printing roll is used. 36 becomes easy to assemble. In this case, one or both of the external gear 27A and the external gear 27B, or the internal gear 28 of the driving rotary cylinder and the internal gear 2 of the driven rotary cylinder
Either one or both of 9 is a transition gear.

The external gears 27 for transmitting the rotational torque from the driving rotary cylinder 30 (internal gear 28) to the driven rotary cylinder 31 (internal gear 29) are arranged at equal intervals in the circumferential direction of the support shaft 14.
When plural axially supported to 6, the inner of which gear 28, 29
, The input / output rotational torque of the roll base body 11 becomes uniform in the rotational direction, and the rotation of the roll base body 11 becomes smooth.

The external gear 2 centered on the axis of the support shaft 14
In 7 other side of, when pivotally supporting the parallel Jiku桿37 on a support shaft 14 on the support plate 26 is slack is avoided the support shaft of the external gear 27.

[0026] and also when the support plate 26 Keru total of two set the left and right end portions of the external gear 27, the external gear 27 and Jiku桿37
Since the supporting structure of the shaft becomes a doubly supported beam, the external gear 27 and the shaft 3
7 is less likely to occur.

In the present invention, the slot 32 and the cam 34
A workpiece outer circumferential surface setting takes it can on the surface of the driving rotary cylinder 30 and the driven rotary cylinder 31 which is of their cutting tends to <br/>, therefore, liable to present invention is performed.

[Brief description of the drawings]

FIG. 1 is a sectional front view of a conventional swing printing roll.

FIG. 2 is a cross-sectional side view of a portion where the internal gear and the external gear of the conventional swing print roll illustrated in FIG. 1 mesh with each other.

FIG. 3 is a cross-sectional side view of a portion where the internal gear and the external gear of the swing print roll according to the present invention mesh with each other.

FIG. 4 is a sectional front view of an oscillating printing roll according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 Roll base material 12 Outer peripheral surface layer 13 Inner cylinder member 14 Support shaft 15 Center of rotation of cylindrical member 16 Rotating cylinder 17 External gear 18 Groove cam 19 Internal gear 20 Cam floor 21 Swing printing roll 22 Eccentric rotation shaft 23 Internal teeth 24 Meshing point Reference Signs List 25 external teeth 26 support disk 27, 27A, 27B external gear 28 internal gear 29 internal gear 30 driving rotary cylinder 31 driven rotary cylinder 32 guide (long groove) 33 guide (pulley) 34 cam 35 cam floor 36 swing printing roll 37 shaft Rod 38 Cylindrical body 39 Support bearing

──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor, Toshio Asano, 1914, Ikeda-cho, Izumi-shi, Osaka 1-Technolol Co., Ltd. (56) References JP-A-4-94941 (JP, A) (58) Field (Int.Cl. ⁷ , DB name) B41F 31/15 B41F 7/24

Claims (6)

(57) [Claims] (A) A roll base (11) rotatably supported on a support shaft (14) so as to be rotatable and slidable in the axial direction, and a support plate (26) fixed to the support shaft (14). The external gear (27A) and the external gear (27B), which are axially supported and rotate integrally with the shaft (14) in parallel with the spindle (14), and the external gear (27A) and the external gear (27B), respectively. Internal gear (28
.29), is rotatably supported by the support shaft (14), and is constituted by a driving rotary cylinder (30) and a driven rotary cylinder (31) having the same rotation center as the roll base (11); (B) The driving rotary cylinder (30) and the roll base (1)
During 1), the rotation of the roll base (11) is transmitted to the driving rotary cylinder (30), and the roll base (11) is supported on the support shaft (1).
Guides (32, 33) for guiding in the axial direction of 4) are interposed. (C) A support is provided on one of the outer peripheral surface of the driven rotary cylinder (31) and the inner peripheral surface of the roll base (11). Shaft (14)
And a cam floor (35) that engages with the cam (34) is provided on the other of the cams (34). (D) The internal gear ( 28), an external gear (27A) meshing with the internal gear (28) of the driving rotary cylinder, an external gear (27B) meshing with the internal gear (29) of the driven rotary cylinder, and an internal gear (2) of the driven rotary cylinder.
9) constitutes a gear train, and (e) the external gear
(27A) and external gear (27B) have the same number of teeth and modules.
The internal gear (28) of the driving rotary cylinder and the driven rotary cylinder.
An oscillating printing roll, wherein the number of teeth of the internal gear (29) is different . 2. The external gear (27) according to claim 1 , wherein:
Are supported at equal intervals in the circumferential direction of the support shaft (14).
(6) a plurality of shafts are supported by the above-mentioned claim;
Item 2. An oscillating printing roll according to Item 1 . 3. On the opposite side of the external gear (27) about the axis of the support shaft (14) according to claim 1 , a shaft bar (37) is provided in parallel with the support shaft (14). The oscillating printing roll according to claim 1 , which is pivotally supported by (26). (A) A roll base (11) rotatably supported on a support shaft (14) so as to be rotatable and slidable in the axial direction, and a support plate (26) fixed to the support shaft (14). The external gear (27A) and the external gear (27B), which are axially supported and rotate integrally with the shaft (14) in parallel with the spindle (14), and the external gear (27A) and the external gear (27B), respectively. Internal gear (28
.29), is rotatably supported by the support shaft (14), and is constituted by a driving rotary cylinder (30) and a driven rotary cylinder (31) having the same rotation center as the roll base (11); (B) The driving rotary cylinder (30) and the roll base (1)
During 1), the rotation of the roll base (11) is transmitted to the driving rotary cylinder (30), and the roll base (11) is supported on the support shaft (1).
Guides (32, 33) for guiding in the axial direction of 4) are interposed. (C) A support is provided on one of the outer peripheral surface of the driven rotary cylinder (31) and the inner peripheral surface of the roll base (11). Shaft (14)
And a cam floor (35) that engages with the cam (34) is provided on the other of the cams (34). (D) The internal gear ( 28), an external gear (27A) meshing with the internal gear (28) of the driving rotary cylinder, an external gear (27B) meshing with the internal gear (29) of the driven rotary cylinder, and an internal gear (2) of the driven rotary cylinder.
9) constitutes a gear train, and (f) the external gear
(27A) and the number of teeth of the external gear (27B) are different.
Of the internal gear (28) of the rotary cylinder and the internal gear (29) of the driven rotary cylinder
An oscillating printing roll having the same number of teeth and modules . 5. An external gear (27) according to claim 4 , wherein:
Are supported at equal intervals in the circumferential direction of the support shaft (14).
(6) a plurality of shafts are supported by the above-mentioned claim;
Item 6. An oscillating printing roll according to Item 4 . 6. On the opposite side of the external gear (27) about the axis of the support shaft (14) according to claim 4 , a shaft rod (37) is provided parallel to the support shaft (14). The oscillating printing roll according to claim 4 , which is supported by (26).