JPH0636028Y2 - Impeller phase adjuster for folding machine of rotary printing press - Google Patents

Description

[Detailed Description of the Invention] (Industrial field of application) The present invention relates to a blade for a folding machine of a rotary printing press, which adjusts the phase of the impeller for a folding machine in the circumferential direction with respect to a folding cylinder integrated with a folding cylinder shaft gear. The present invention relates to a vehicle phase adjustment device.

(Prior Art) A conventional impeller phase adjusting device for a folding machine of a rotary printing press
It will be explained with reference to FIG. First of all, the folding machine will be described with reference to FIGS. 3 and 4. (01) is a nicking roller, and the tension before the folding machine is adjusted by the nipple roller (01).
The printing paper (05) is fed between the saw cylinder (02) and the folding cylinder (03). Also, the needle bar (06) on the folding cylinder (03) prints immediately before cutting the front end of the set (bundle) of the printing paper (05) consisting of several pages by the saw blade (04) on the saw cylinder (02). It pierces the end of the paper (05) and the front end of the print paper (05) is cut by the saw blade (04), and then the needle bar (06) cuts the print paper (05) on the folding cylinder (03). The printing paper (05) continues to be fed while moving along the outer peripheral surface for a predetermined period, but at this time, the phase of the saw blade (04) on the saw cylinder (02) is changed by 180 °. The rear edge of the printing paper (05) is cut by the next saw blade (04 ') provided, and at the same time, the needle bar (06) sinks and comes out from the front end of the printing paper (05). Next, the folding blade (08) of the folding blade shaft (07), which regularly performs its own motion with respect to the folding cylinder (03), projects to push down the center of the printing paper (05). At this time, the leading edge fold of the printing paper (05) is rolled (0
It is sandwiched by 9) and is fed downward, and it is surely fed one by one between the blades (013) of the impeller (012).
The impeller (012) rotates continuously and conveys the conveyor belt (0
14) Place the printing paper (05) on the top in a regular array.

Next, the impeller phase adjusting device for a folder will be described with reference to FIG. The folding cylinder shaft (015) of FIG. 4 and the impeller shaft (016) of FIG.
The rotation speed ratio of the folding cylinder shaft (015) is determined based on the ratio between the number of folding blades (08) on the folding cylinder (03) and the number of blades (013) on the impeller (012). ) And the same impeller shaft (016) for reliable power transmission, the first intermediate shaft (017), the sliding shaft (018), and the second intermediate shaft (019) are connected to the frame (020) of the printing machine. Fixed to these shafts with intermediate bevel gears (0
22) (023) (024) (025) and intermediate gear (spur gear) (02
6) is rotatably mounted, and the helical gear (027) and the impeller shaft gear (spur gear) (028) are mounted between the helical gear (0
22) (023) (024) (025) and an intermediate gear (026) are interposed.

In order for the cut and folded printing paper (05) to drop in order between the blades (013) of the impeller (012) one by one, with respect to the impeller shaft (016) of the impeller (012). It is necessary to adjust the phase according to the shape of the blade. To perform this phase adjustment, the adjustment shaft (030) that is screw-fitted to the sliding shaft (018) is rotated via the phase adjustment gear (021), and the helical gears (023) (024) are rotated. Sliding between the solid line position and the chain double-dashed line position, the meshing position of the same helical gear (023) (024) with respect to the helical gears (022) (025) is changed within the range of the full gear. By doing so, the circumferential position of the blade (013) of the impeller (012) is adjusted according to the twist angle of the helical gear.

(Problems to be solved by the invention) In this impeller phase adjusting device for folding machine, the impeller (012)
Although the adjustment allowance for the blade (013) in the circumferential direction is at least one pitch, in the conventional impeller phase adjuster for folder shown in FIG. 3, the blade (013) is adjusted in the circumferential direction. If the twist angle of the helical gear is 20 ° and only about 1/5 pitch is achieved, and the adjustment allowance does not fall within this range, after stopping the printing machine, loosen the impeller sleeve (029) and make the adjustment. I was trying to do it, but it was inconvenient because it took time and effort.

Also, many gear trains were required to obtain the required reduction ratio.

(Means for Solving the Problems) The present invention addresses the above-mentioned problems. The impeller shaft for the folding machine is rotatably attached to the frame of the rotary printing press, and the sun gear is attached to the frame of the rotary printing press. It is attached so that it can rotate around the impeller shaft for the folder, and the carrier body can be attached to the impeller shaft for the folder so that it can rotate around the impeller shaft for the folder. The planetary small gear fixed to the outer end and meshed with the same gear and the planetary large gear meshed with the sun gear are integrally connected by a rotary shaft provided on the carrier cylinder, and the folding cylinder shaft gear is connected to the carrier cylinder. A planetary gear unit that meshes with an external gear provided on the outer peripheral surface to obtain a necessary reduction ratio, and a phase adjusting gear meshes with the sun gear to provide a folding cylinder integrated with a folding cylinder shaft gear. The phase of the impeller for the folder can be adjusted in the circumferential direction. The present invention relates to an impeller phase adjusting device for a folding machine of a rotary printing press, which is characterized by the fact that a gear train of a gear device that obtains a necessary reduction ratio can be simplified and a folding cylinder shaft gear even during operation. An object of the present invention is to provide an impeller phase adjusting device for a folding machine of a rotary printing press, which is capable of adjusting the circumferential phase of the impeller for a folding machine with respect to an integral folding cylinder.

(Function) and (Embodiment) Next, an explanation will be given of an impeller phase adjusting device for a folding machine of a rotary printing press according to an embodiment shown in FIGS. 1 and 2, wherein (12) is an impeller and (13) Are blades, (16) are impeller shafts for folding machines, (17)
Is a rotary shaft, (20) is a frame of a rotary printing machine, (21) is a phase adjusting gear, (23) is a planetary gear, (24) is a planetary gear, (25) is a sun gear, and (27) is Folding cylinder shaft gear, (28) gear, (29) carrier barrel, (22) carrier barrel (2
With the external teeth provided on the outer peripheral surface of 9), the impeller shaft for the folding machine (16) is rotatably attached to the frame (20) of the rotary printing machine,
The sun gear (25) is rotatably attached to the frame (20) of the rotary printing machine around the impeller shaft (16) for the folding machine, and the carrier cylinder (29) is impeller shaft (16) for the folding machine. Is mounted so as to be able to rotate around the impeller shaft (16) for the same machine, and the gear (28) is fixed to the outer end of the impeller shaft (16) for the same machine and meshes with the gear (28). The planetary small gear (24) and the planetary large gear (23) meshing with the sun gear (25) are integrally connected by the rotary shaft (17) provided in the carrier cylinder (29), and the folding cylinder shaft gear (27) is the carrier body (2
9) mesh with the external gear (22) provided on the outer peripheral surface,
A planetary gear device that obtains the required reduction ratio is configured, and the phase adjusting gear (21) meshes with the sun gear (25), and for a folding machine for a folding cylinder that is integral with the folding cylinder shaft gear (16). The phase in the circumferential direction of the impeller (12) can be adjusted.
Reference numeral (31) is a bolt for attaching the planetary gear device to the frame (20) of the rotary printing press.

Next, the operation of the impeller phase adjusting device for a folding machine of the rotary printing machine shown in FIG. 1 will be specifically described. FIG. 2 is a gear train diagram showing the impeller phase adjusting device for the same folding machine in a simplified manner. The prime mover I and the output shaft II are arranged on the same axis, the central gear (sun gear) A is fixed, and the rotation center of the arm (carrier) E supporting the intermediate shaft III is arranged on the above axis. A driven gear B is fixed to the output shaft II, a planetary gear C meshing with the central gear A and a planetary gear D meshing with the driven gear B are fixed to the intermediate shaft III, and an arm (carrier) E is rotated. When rotated by the number n ₅ , the planetary gears C and D revolve around the center gear (sun gear) A, and the driven gear B and the output shaft II are decelerated. Output shaft II at this time
The rotational speed n ₂ of the central gear (sun gear) A is n = 0
Than, Represented by However, a, b, c, d are gears A, B, C, D. As described above, the planetary gear device of FIG. 2 is substantially the same as the planetary gear device of the impeller phase adjusting device for a folder of the present invention, and the above calculation formula is directly applied. Applying an actual numerical value to this calculation formula and calculating it shows that the impeller phase adjusting device for a folding machine of the present invention is larger than the conventional impeller phase adjusting device for a folding machine in spite of its compact structure. It can be seen that the reduction ratio can be obtained.

(Effect of the Invention) As described above, the impeller phase adjusting device for the folding machine of the rotary printing machine of the present invention rotatably mounts the impeller shaft (16) for the folding machine on the frame (20) of the rotary printing machine, and the sun gear (25) is attached to the frame (20) of the rotary printing machine so that it can rotate around the impeller axle (16) for the folding machine, and the carrier cylinder (29) is also folded on the impeller axle (16) for the folding machine. A planetary small gear that is mounted so that it can rotate around the impeller shaft (16) for the machine, the gear (28) is fixed to the outer end of the impeller shaft (16) for the folding machine, and that meshes with the gear (28). (24) and the planetary gear (23) meshing with the sun gear (25) are integrally connected by the rotary shaft (17) provided on the carrier cylinder (29), and the folding cylinder shaft gear (27) is connected to the above. The planetary gear device is configured by meshing with the external gear (22) provided on the outer peripheral surface of the carrier body (29). Reduction ratio of the output rotation against the force rotation)
In comparison with the conventional impeller phase adjusting device for a rotary printing press, which requires a large number of gear trains in order to obtain a necessary reduction gear ratio, the gear train of a planetary gear device is obtained. Can be simplified.

Further, the impeller phase adjusting device for the folding machine of the rotary printing machine of the present invention is configured as described above, and the circumference of the impeller for the folding machine (12) with respect to the folding cylinder integrated with the folding cylinder shaft gear (27). The phase adjustment range in the direction is not limited. That is, in the conventional impeller phase adjusting device for a folding machine, the phase adjustment range in the circumferential direction of the impeller for a folding machine (12) with respect to the folding cylinder integral with the folding cylinder shaft gear (27) is 1 pitch. The printing machine stopped when trying to adjust the phase in the circumferential direction of the folding impeller (12) with respect to the folding cylinder integrated with the folding cylinder shaft gear (27) within a very narrow range of 5 and other than that. After that, the blade (13) had to be loosened and moved, which was inefficient and became a big problem in practical use, whereas the blade for the folding machine of the rotary printing machine of the present invention. The vehicle phase adjusting device changes the meshing position of the planetary gears (23) and (24) by a small angle by rotating the phase adjusting gear (21) meshed with the sun gear (25) little by little as a driving force as described above. It is possible to adjust the phase in the circumferential direction of the folding machine impeller (12) with respect to the folding cylinder integrated with the folding cylinder shaft gear (27). In addition, the adjustment range is not limited. Moreover, since the sun gear (25) is only rotated via the phase adjustment gear (21),
Even during operation, there is an effect that the phase in the circumferential direction of the folding machine impeller (12) with respect to the folding cylinder integrated with the folding cylinder shaft gear (27) can be adjusted.

[Brief description of drawings]

FIG. 1 is a side view showing an embodiment of an impeller phase adjusting device for a folding machine of a rotary printing machine according to the present invention, FIG. 2 is an explanatory view of its operation, and FIG. 3 is a folding machine of a conventional rotary printing machine. Side view,
FIG. 4 is a side view showing a part of it in an enlarged manner, and FIG. 5 is a side view showing a conventional impeller phase adjusting device for a folder. (12) …… impeller, (13) …… blade, (16) …… folder impeller shaft, (17) …… rotating shaft, (20) …… rotary press frame, (21) …… Phase adjustment gear, (23) …… Planet gear, (24) …… Planet gear, (25) …… Sun gear,
(27) …… Folding cylinder shaft gear, (28) …… Gear, (29) …… Carrier cylinder, (22) …… External teeth provided on the outer peripheral surface of the carrier cylinder (29).

Claims (1)

[Scope of utility model registration request] 1. An impeller shaft for a folding machine is rotatably mounted on a frame of a rotary printing machine, and a sun gear is rotatably mounted on a frame of the rotary printing machine so as to be rotatable about the impeller shaft for the folding machine. Is attached to the impeller shaft for the folder so that it can rotate around the impeller shaft for the folder, the gear is fixed to the outer end of the impeller shaft for the folder, and the planetary small gear meshed with the gear and the sun A planetary gear that meshes with a gear is integrally connected by a rotary shaft provided on the carrier cylinder, and the folding cylinder shaft gear is meshed with an external gear provided on the outer peripheral surface of the carrier cylinder to provide a required reduction ratio. While configuring the planetary gear device to be obtained, by engaging the phase adjusting gear with the sun gear, it is possible to adjust the circumferential phase of the folder impeller for the folding cylinder integral with the folding cylinder shaft gear. An impeller phase adjustment device for a folding machine of a rotary printing press.