JPS58212558A - Printed paper processing device - Google Patents

Abstract

PURPOSE:To stabilize the tension of printed paper and to improve folding precision by fitting a cooling unit to a frame of a folding machine and by driving to connect the drag roller of the folding machine to the drive section of the cooling unit. CONSTITUTION:A stepless speed changer 33 and a cooling unit 36 are fitted to a side surface of the frame 15 of a folding machine 14, and a drag roller 23 of the folding machine 14 is driven to connect to the drive section of a device 36. When a prime mover 2 is rotated, the speed changer 33 is driven, a cooling roller 3 is rotated, and the drag roller 23 of the folding machine 14 is rotated. Therefore, rollers 38, 39 can be reliably coincided in timing with the roller 23, thus by adjusting the speed changer 23 the rotating speed of the rollers 38, 39, 23 can be concurrently adjusted. The printed paper 32, after dried and processed, is cut, folded, and processed by the folding machine 14 through a compensatory roller 13.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a processing device for printed paper, which continuously cools printed paper that has been printed on a rotary printing press and dried in a drying device, and then folds the paper.

A conventional processing device for printed paper printed by a rotary printing press, as shown in FIG.
It is equipped with

The cooling device 4 includes a frame 5. 1st (7) continuously variable transmission 6, cooling roller 9. It has IO and compensator roller 13. The first continuously variable transmission 6 includes:
The drive shaft 2 is connected to the drive shaft 2 via the drive gear 7 and the wrapped transmission member 8.
The drive is connected to the Said ring roller 9, 1
0, one cooling roller 9 is drivingly connected to the first continuously variable transmission 6 via a winding transmission member 11, and the other cooling roller IO is connected to the first continuously variable transmission 6 via a driving gear 12. They are linked so that they can rotate at high speed.

The folding machine 14 has first folding machines installed parallel to each other on the pace 3. second frames 15 and 16, a third frame 17 which is an upper frame, a second continuously variable transmission 18 attached to the outer surface of the first frame 15, and a drive shaft 2.
1. The drag roller O supported by the third frame 17 and the triangular plate station; Second frame 15, 16
The second continuously variable transmission 18 has a leading roller n, a nipping roller path, and a folding cylinder device supported between them. The driving shaft 21 is also drivingly connected to the driving shaft 2. The driving shaft 21 is vertically supported between the first and third frames 15 and 17, and is connected to the second continuously variable transmission via a driving gear n. The drag roller A is connected to the drive shaft 21 through a drive gear 25. The nipping roller path is connected to the drive 111121 through a drive gear. The folding cylinder blades are drivingly connected to the drive shaft 2 via a gear train 31.

In the conventional processing device, the printing paper 32 is dried in the drying device 1, then sent to the cooling device 4, cooled by the cooling rollers 9 and 10, and then
The paper path is corrected to adjust the cutting position, and then the paper is sent to the folding machine 14.

In this folding machine 14, the printing paper 32 is moved by a drag roller n.
It is pulled in by the triangular board, changed direction, introduced into the Nilaping roller through the leading roller 27, cut into a predetermined length, folded by the blade of the folding machine, and transferred to the conveying machine ( (not shown) and sent to the next process.

In FIG. 1, reference numeral 32' indicates a printed sheet that has been cut at the folding surface 14 and folded nine times.

However, the conventional printing paper processing apparatus has the following drawbacks.

■ The printing paper 32 coming out of the drying device 1 is transferred to the cooling device 4.
It takes a long time for the paper/IP to pass through and be introduced into the folding machine 14, resulting in poor processing efficiency.

■ The first continuously variable transmission 6 is installed in the cooling device 4.
) machine 14 is provided with a second continuously variable transmission 18, the rotational speed of the cooling roller 9, 10 is changed by the first continuously variable transmission 6, and the rotational speed of the drag roller of the machine 14 is changed by the second continuously variable transmission 18. Since each adjustment is made by the continuously variable transmission 18, it is difficult to match the timing between the cooling rollers 9 and 10 and the drag roller, making it difficult to stabilize the tension of the printing paper 32, resulting in poor folding accuracy.

- The drive system between the cooling device 4 and the folding machine 14 is complicated and has a large number of parts, increasing equipment costs.

An object of the present invention is to eliminate the drawbacks of the prior art, and to provide a printing paper processing device that integrates a cooling device and a folding machine, and that can adjust the rotational speed of various rollers with a single continuously variable transmission. There is something to do.

A feature of the present invention is that a cooling device is attached to the frame of the folding machine, and the drag roller of the folding machine is drive-connected to the drive system of the cooling device including a continuously variable transmission. was definitely achieved.

The present invention will be explained below based on the drawings.

FIG. 2 shows an embodiment of the present invention, in which the folding machine 14
A continuously variable transmission 33 and a cooling device are attached to the side surface of the first frame 15, and a drag roller B of the folding machine 14 is drivingly connected to the drive system of the cooling device.

The continuously variable transmission is drivingly connected to the driving shaft 2 via a drive gear and a wrapped transmission member.

The cooling device 36 includes a frame 37 and a cooling roller 39 supported by the frame 37. Said cooling roller a.

Among the cooling rollers 39, one cooling roller 39 is drive-connected to the continuously variable transmission via a winding transmission member 40, and the other cooling roller 39 rotates at the same speed as the cooling roller shell via a drive gear 41. are linked to do so.

The drag roller of the folding machine 14 includes a drive roller 42 attached to the shaft (not shown) of the cooling roller 39, an intermediate roller 43 supported by the frame 37 of the cooling device 36, and the folding machine 14. A driven sled 44 is attached to the shaft (not shown) of the drag roller, a belt 45 is passed between the driving pulley 42 and the intermediate pulley 43, and a belt 45 is passed between the intermediate sled 43 and the driven pulley 44. It is configured to be driven by a transmission member including a shaped belt 46.

The printing paper processing apparatus of the above embodiment operates as follows.

That is, when the driving shaft 2 is rotationally driven, the driving teeth are monotonous;
The continuously variable transmission 33 is driven through the winding transmission member A, and as the continuously variable transmission O is driven, the cooling roller is rotated through the winding transmission member 40, and the cooling roller is rotated through the driving gear 41. The rollers 39 are rotated at the same speed, and the driving rollers 42, belts 45, intermediate rollers 43, and belts 4
6 and the folding machine 14 through the transmission member of the driven zori 44.
The drag roller is rotated.

As mentioned above, the drag roller n is drivingly connected to the cooling roller 39 linked to the cooling roller 39 through the transmission member, so that the cooling roller 39 is connected to the cooling roller 39 through the transmission member.
9 and the drag roller can be reliably aligned in timing. Furthermore, by adjusting one continuously variable transmission, the rotational speeds of the rollers 38 and 39 and the drag roller n can be adjusted simultaneously.

After the printing paper 32 is dried in the drying device 1,
The paper is introduced into a cooling device 36, cooled by its cooling rollers 39, and then sent to a folding machine 14 through a conveyor roller 13, cut and folded by the folding machine 14, and transferred to a conveying device. be done.

At this time, since the cooling device 4 is directly connected to the folding machine 14, the paper path from the drying device 1 to the folding machine 14 via the cooling device can be significantly shortened, so that processing efficiency can be improved.

Furthermore, since the drag roller of the folding machine 14 is drivingly connected to the drive system of the cooling device 36 including the continuously variable transmission 33, the timing between the cooling roller 39 and the drag roller can be easily adjusted. Moreover, these drive systems can be simplified.

Note that other configurations are possible in the embodiment shown in FIG.

The operation is similar to the embodiment shown in FIG. 1, except that the nipping roller 4 is linked to the gear train 31 of the folding cylinder device 30 via the drive gear 29'.

Further, in the present invention, the driving connection between the drive system of the cooling device 36 and the drag roller n of the folding machine 14 is not limited to the illustrated embodiment, but can be any device that can synchronize the rotation timing of the cooling roller 39 and the drag roller n. good.

The present invention has the above-described structure and function.According to the present invention, the folding machine and the cooling device are integrated, so that the paper loss from the drying device to the cooling device to the folding machine is significantly reduced. Since it can be shortened, processing efficiency can be improved.

Furthermore, according to the present invention, there is one continuously variable transmission, and the drag roller of the folding machine is drivingly connected to the drive system of the cooling device including the continuously variable transmission, so that the cooling roller and the drag roller can be easily connected. As a result, the timing can be adjusted to improve the folding accuracy of printed paper.
Since the drive system between the cooling device and the folding machine can be simplified and the number of parts can be reduced, there is also the effect of significantly reducing equipment costs.

[Brief explanation of drawings]

FIG. 1 is a side view of a conventional printing paper processing apparatus, and FIG. 2 is a side view of an embodiment of the present invention. DESCRIPTION OF SYMBOLS 1... Drying device, 2... Driving shaft, 14... Folding machine, 15. 16, 17... No. 1 of the folding machine. Second. 3rd frame, n...drag roller of folding machine, adder...triangular plate, n...leading roller, measuring...nipping roller, adder...folding cylinder device, 32...printing paper , 33...
・Continuously variable transmission, 36...Cooling device, 37...
Frame V of cooling device, A, 39... Cooling roller, 42-46... Transmission member for drivingly connecting the drag roller of the folding machine to the drive system of the cooling device. Agent Patent Attorney Tadashi Akimoto Figure 1 Figure 2

Claims (1)

[Claims] A printing paper processing device characterized in that a cooling device is attached to a frame of the folding machine, and a drag roller of the folding machine is drivingly connected to a drive system of the cooling device including a continuously variable transmission.