JPS5893508A - Controlling roll for deflection - Google Patents

Abstract

PURPOSE:To prevent pushing back more than a specified extent by holding a cell with bearing boxes on the outer side of journals, providing guides thereto to make the cell movable in a specified radial direction, and supporting a roll shaft which forces the cell upward from the inner side by oil pressure with an another stationary saddle. CONSTITUTION:When a roll cell 25 rotates, the pressure oil from a pressure oil pump to a roll shaft 34 is supplied. The pressure oil passage through an oil hole 42 then through oil holes 43 and enters the lower part of a bar-like member 40, thus forcing the member 40 upward. Part of the roil in the holes 43 enters the space between the inside circumferential surface of the cell 25 and the upper part of the member 40 and lubricates the contact surfaces of both. The cell 25 which is forced upward by the member 40 is limited of the extent of its movement by a stopper 41. Bearing boxes 30 are lifted via journals 32 and are guided by keys 46 so that the same are coupled in the prescribed positions of saddles 36. When the oil pressure is exerted upon the cell 31 and the boxes 30 move, the cell moves in a specified radial direction along the guide.

Description

[Detailed Description of the Invention] The fact is that the control system is applied to the 0 backup control system for the rendering system, and it also applies to the control system for the rendering system. A ha-ru equipment (111a) is used for preparing autumn buds.
f#all's press Yakura Renda J') k! , negative 11
) Corrects the roll OII fist that occurs, - 1 le fight 0m1
Try to make E into one machine, structure 0%0 leaks 4h. The iris 1 diagram can be used for presses.
1M5H is a-, be longitudinal sectional view, 118 is gsailo
It is between y and y enlarged cross section (Special Plan No. 181168/1973)0 Now, referring to Fig. 1, the roll (1) is a 4010-roll with a structure whose cohesion is corrected automatically. are cooperating rolls], and the same roll (2) is supported by bearings (3) at both ends.
A round beam (
is rotatably fixed by Mae roll (1)
is composed of p-Role 41k (3), and the same rolls (
8) is a stand (A-A supported swingably on the stand 4).
(6) K II *-Gripped roll shaft (7) Upper lI
C is rotatably supported and rotated (by frictional force with the same rule (1) and fourth rule (2)).

gsil and irises 8 KTh and cylindrical 00-russel (
The tree is supported by spherical roller bearings (9) (Q) at both left and right ends II of the roll shaft (7).

Inside t*-1 rule (a), there are two inner circumferences of Okap-ru (river), n-Jk axis (7), O outer circumference @h, and bearing (9).
(9) @ji from K! Therefore, the Il-shaped space αO has been rebuilt), and the upper part of the Okazumi autumn space ago has a roll cell (
a) A rod-shaped member a1 is arranged close to both inner circumferences.

On the other hand, inside the roll shaft (7), a plurality of cylinders and hydraulic system shafts (with pistons) are arranged in the axial direction, and support a rod-shaped member on the piston OII. are doing. A hydraulic passage (i) is provided in the nine-wheel shaft (7), which supplies oil to the hydraulic device (n) and also to the space (III).

Now, when the p-lucelle (8) makes one turn, the hydraulic device U is actuated by the hydraulic pressure, and the rod-shaped member a is pushed up into the annular air gap (■) in the gap between the p-lucelle (8) and the rod-shaped thin material 11. Due to centrifugal force and adhesive force, the oil flows on the inner circumferential surface of the roll cell (8) as shown in the arrow 10 (p-l cell (8)).
Turn the Kig 1 and compare the back page of the rod-shaped member 6 and the wedge-shaped cut formed by the battle with the inner circumferential surface of the chestnut.
s, generates hydraulic pressure to push up the 11 lucelle (8), and generates a uniform linear pressure across the 4 lucelle (JlO operating part @) so that the paper O sheet 1◆ shows an irises of 1 mIK. Then, it is guided in the direction of the arrow M through between the roller (1) and the roll (2), and the O water in the sheet is uniformly dehydrated over the entire sheet.

However, the conventional device has the following drawbacks: Generally, the upper and lower rolls are pressurized before the strip material enters between the rolls, so the roll cell (8) is pushed from the outside by the mating roll, causing the cell to collapse. There is no problem because the pressure roller (8) pushes up the cell with hydraulic pressure so that it is flexible from the inside. ^If there is a thickness of 1 inch between the plates, and if you apply hydraulic pressure in advance to push the cells apart, in other words, if you apply hydraulic pressure to push the cells apart while keeping the gap in good condition, the force pushing down the cells is small, so both the left and right ends 11JI for hydraulic pressure on IIO bearings
Since the 0-O bearing, which is subjected to the excessive force of I, must be installed inside the cell, it is difficult to withstand the above-mentioned excessive force.

The present invention has been proposed to overcome the above-mentioned drawbacks of the conventional technology, in which the cell is held by a bearing shaft outside the journal, and a guide is provided in the bearing box to prevent the cell from moving in a constant radial direction. The roll shaft, which is provided to push the cell upward with hydraulic pressure from the inside, is supported by the bearing shaft, when applied to a compression machine, etc. In addition to being usable, the material to be rolled can be pushed up by an artificial Km pressure between the rolls and stand by, the cell can move freely in a constant radial direction, and the deflection control system can be used to control the material to be rolled. In the event of being pushed back, the bearing and saddle are combined to provide a deflection control system that pushes the saddle beyond the chamber and prevents it from being pushed back. To explain, Shobankaku is the original! I with bearing structure showing jiO example
I fist control - O arrangement example when using the rule for rolling*6, sth
Il is a longitudinal sectional view of the deflection control roller, and No. 6111 is a deflection control roller (2) of 91 pressure rollers (2) which are provided in a deflected manner and are positioned (by means of a rolling device via an upper backup roll).
is provided in contact with this
1) is supported from the bottom through the frame (to)
holds these four-wheel Qchin (2) A4 (goods) and the lowering device (2). The front part is made of material and is installed on the frame, and both sides of the bearing shaft 000 of the lower backup rail contact this and are guided.

The material to be rolled (2) rolls on the roller table (2), passes through the upper roll, the lower roll (2) and the O barrier, and is guided in the direction of arrow C, with the control roll on the upper It is applied to the backup roll O4 and the lower side/(to) the pick-up roll, and the pressed object 4 is rolled to -11 across its entire width.Next, in the 68th, the left side is the operation The bearing part, the drive side KO bearing part is shown on the right side, and the -russel part is shown in the center.

1kJP, the driving side IIAO bearing part is rounded, and the structure of the operating side DO shaft bearing is 4 mm.For the same bearing part, the structure will be explained only for the operation IIIK. Le (goods) role cell (2
), the journal (2) is bolted onto the end IIK), and the journal (2) is inserted into its outer periphery. and is supported on Tru〇 Stand II. The key is attached to the Oenador (to), the bearing box ■, and the 0 gate.

A pair of spherical box pouches are inserted into the roll shaft, and the inner one is fixed to the roll shaft (86 is the presser foot and -), and the outer one is fixed to the roll shaft. It is held by the nato kts integrated with the stand, and 2 nadols (to) KH are added from the presser foot CIK.

Moreover, the four-wheel shaft is supported by the pendant HE through the ball box pushie (2).

--Inside Lucelle @O are the inside of the dragon, the outer circumference of the axis, and the journal.

As a result, a ll-shaped space is formed. This annular space-
Upper IIO■-ru7ru cI! The rod-shaped member 0ζ'--on which the rod-shaped member 11g$- is placed close to the inner circumferential surface of the rod-shaped member--is prevented from moving more than a certain distance in the vertical direction by a plurality of stoppers 1, and (Financial) Many K Tori are attached.

Further, inside the roll shaft (B), an oil tank (C) is provided which is connected to an external IiO pressure oil bong (not shown), and a plurality of oil pipes (C) communicate with the oil tank (4). 1 Also a rod-shaped member
A plurality of small holes are provided and communicate with the oil tank.

Next, to explain the action, in the cylindrical diagram to the ms diagram, when the 11 lucel @ rotates, pressure oil is supplied from the pressure oil pump to the 1 ka-le shaft ◇ζO pressure oil exceeds the oil size (c) , Yudai-
From the bottom of the rod-shaped part #@O], push up the rod-shaped member. Maku oil hole @30 A part of the oil passes through the small hole and enters the space between the inner waste of the roll dragon and the rod-shaped member - the upper part of the oil)
, P-Lucel (c) and O contact with the rod-shaped thin material to lubricate.

Next, the roll dragon @Tsuji was pushed up by a rod-shaped member.
The amount of movement of the stopper @DK is limited, and it cannot be lifted beyond a certain dimension. At this time:' The bearing box 0I is lifted up via the jar fk (2), but
It is set by the key so that the nadle can always be placed in a predetermined position.

When hydraulic pressure is applied to the 0-cell R31), and the bearing box ■ moves $, the turtle moves along the guide ■ in a certain +a direction. Movement) 0 Calendar 7- is exposed by the control roll 0 bearing 0 run 0 movement example. In the figure, 111IF is provided between the bearing housing fD and the bearing housing 0. Now, in JI7 figure Ksph, if the -ru can be pushed back by the rolled material, the pushing force is,
The force used to push it open with hydraulic pressure is pushed to its own position in order to pass. As explained above in detail, the present invention is constructed with
When the pressurized object enters the upper and lower rolls, the oil pressure is constant and the h4 rounding pressure device is large II! - Due to the load, v = -k4 is pushed down, and the bearing S is guided (guided down) to the t dollar! By setting the position by 11), it is possible to maintain the gap between the upper and lower positions. Before, the pressurized flies were in a battle between humans and turtles, and Ple was pushed back by the pressurized creatures, and the eleventh axis fertilization and T dollars were delivered to the Maruba meeting, so the - room There will be no push back.

[Brief explanation of drawings]

Figure 5 is a conventional press KM roll placement diagram, GS diagram is 1110X-XilmlM, and the 8th garden is iris 3.
Figures OY-Y are cross-sectional views. Figure 1 is a cross-sectional view of a deflection control roll according to an embodiment of the present invention when it is used in a pressing machine. Figure 816 is a cross-sectional view of a deflection control roll according to an embodiment of the present invention. gW1s,
gamtiais map oz ~z danji map, 1M7 diagram is the 6th
FIG. 3 is a normal sectional view of a roll showing an embodiment different from the figure. Explanation of the main parts of the leapfrog 24, 81...Patsutaatsu Pool ZB...Socket Roussel s6...Lowing device s9 Pa.
・Pressure arc object 80...Bearing box 8s...Shear+ru 84...Roll shaft 86...Naddle
46...Key (lI guide license) Applicant: Mitsubishi Heavy Industries, Ltd. Fukudai Shijin, Benmarashi Takashi Karagi - 11 others -', -1: Figure 1 Section 4 Procedural Amendments January 1982 25th Japan Patent Office Commissioner Shima 1) Haruki Tono1, Case Indication Patent Application No. 1982-192032 Person making the amendment Relationship to the case Patent applicant Address 2-5-1 Marunouchi, Chiyoda-ku, Tokyo Name
(620) Mitsubishi Heavy Industries, Ltd. 4, Agent Address: Mitsubishi Heavy Industries, Ltd., 2-5-1 Marunouchi, Chiyoda-ku, Tokyo Name (6124) Patent Attorney Akigai Sakama, 2 people 5, Sub-Agent

Claims (1)

[Claims] Apply oil pressure to the inside 11 of the 11th ring and make the cell 011m+ move automatically by controlling the roll KsP. 11 by moving the cell to the fixed position, and moving the cell inside) The lI constant □ a - axis, which is provided in the upper part that can be pushed up by hydraulic pressure, is connected to the bearing box and the horizontal axis. ) Supported by %A h11 fist control - one le