JPS6343718A - Cooling apparatus for steel sheet - Google Patents

Abstract

PURPOSE:To contrive compactness and light weight of installation by independently two driving upper conveying rollers of a steel sheet cooling apparatus by one small motors. CONSTITUTION:On the steel sheet cooling apparatus, a number of feeding rollers are disposed in two upper and lower steps the steel plate is conveyed continuously and a cooling hardening of the steel sheet is performed by injecting water from spray nozzles 8. Further, the two upper conveying rollers 3 are equipped with one small motors 21 and driven independently. In this constitution, even if the steel sheet is cooled to slightly curve and is strongly brought into contact with the upper rolls 3, the motors 21 don't generate the driving force to convey the steel plate against said conditions, but only follow the steel plate and rotate, so it is needless to strengthen roll shafts, etc., to contrive compactness and light weight of the apparatus.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a cooling device for a steel plate used, for example, when cooling a red-hot steel plate that has been hot-rolled.

[Prior art] When manufacturing steel plates, a rolling mill is used at a temperature of 1.200 to 1,300°C.
After rolling a red-hot slab to a thickness of about 10 to 100 mm to form a steel plate, there is a step in which the steel plate, which is still red-hot, is water-cooled, that is, quenched to harden and strengthen the steel plate.

Conventionally, cooling devices for this purpose have been used as shown in FIGS. 7 to 9.

In FIG. 7, reference numeral 1 is a concave frame fixed to a base 2, and an upper roll table 3 and a lower roll table 4 are disposed inside the frame.

These upper and lower roll rolls 3.4 are fed out from a rolling mill (not shown) and extend in the conveying direction of the filter steel plate, so that they overlap each other.
becomes parallel to,■-U1. i” arranged in two stages (1
Because of this, the steel plate is conveyed between these upper sheets. The configuration of these upper and lower roll tables 3.4 is approximately 1.

That is, these upper and lower roll tables 3.4 are
As shown in the figure, a large number (8 in this case) of "-rolls (
transport rolls) 5... and lower rolls (transport rolls) 6, these upper rolls 5, and lower rolls 6.
It consists of a drive mechanism 7 that rotates... and a spray nozzle 8 that spouts cooling water.

The upper rolls 5 and the lower rolls 6 are arranged in the conveying direction of the steel plate, and have roll shafts 5a, 6a, and 6a on one end side.
is the bearing 9. 10..., and the other end roll shafts 5b, 6b are attached to the drive mechanism 7.

This drive mechanism 7 (j1 gear box 11 and drive motor I
It consists of 2.

In the gear box 11, as shown in FIG.
6) rotates, and this transmission shaft 11a is rotated D
Contains a large number of gears. Then, the upper roll 5... (lower roll 6) [knoll 5b-(6b-)] is installed in the gear box Il, and the gear box 1
A drive motor 12 connected to the outside of
...(lower roll 6...) is designed to rotate. That is, as shown in FIG. 9, one drive motor 12 drives the entire upper roll 5 and the lower roll 6.
...The entire rotational drive is covered.

In this case, the lower rolls 6... are for conveying the steel plate, and the main purpose of the rolls 5 is to press the steel plate from above, and the upper rolls 5... are used to convey rotation tj, The purpose of this is to transport the steel plate and to prevent scratches on the steel plate.

Further, the spray nozzles 8 are disposed between the lower rolls 5 and 6, and are configured to spray cooling water toward the steel plate.

” - upper and lower roll tables configured as shown 3.4
Among them, the lower roll table 4 is as shown in FIG.
The bearing 10 and gear box 11 are attached to the base I.
It is said to be in a fixed state by being

Further, one of the roll tables 3 can be moved up and down, as shown in FIG. That is, a screw 13a of a lifting gloss 13 operated by a motor is inserted into the concave frame I, and the lower end of this screw 13a is connected to the bearing 9 on the -]-roll 5 side and the gear box II. It is connected to a lifting frame I4 that spans between the two. That is, the upper roll table 3 is suspended from the gate-shaped frame 1 by the screws 13a of the lifting jack 13.

When the lifting jack 13 is operated, the upper roll table 3 is raised and lowered, thereby making it possible to adjust the interval between the lower roll tables 3 and 4 in accordance with the thickness of the steel plate.

In addition, the gear box I+ of the lifting frame 14 (
The upper roll table 3 does not tilt toward the gear box 11 side, but is kept horizontally at the upper part of the opposite side where the upper roll table 3 is tilted toward the gear box 11. Tow weight 15 is installed nicely.

According to such a cooling device, the red-hot steel plate sent out from the rolling mill is sandwiched between the upper and lower roll tables 3.4, and the upper rolls 5... and the lower rolls 6... are driven by a drive mechanism. When the steel plate is continuously conveyed by rotating in the conveying direction by the upper roll 5, at this time, the upper roll 5
・A spray nozzle 8 arranged between the lower roll 6 and the lower roll 6.
The steel plate is cooled by jetting cooling water toward the steel plate.

[Problems to be solved by the invention] By the way, when cooling a steel plate with the above device, the 10th
As shown in the figure, when a steel plate (indicated by the symbol W) enters between the upper and lower roll tables 3.4 and its ends are rapidly cooled by cooling water jetted from the spray nozzle 8,
The cooled portion may be distorted and slightly curved toward the upper roll table 3 side. In this case, the surface of the curved steel plate W comes into strong contact with the upper roll 5, and a lifting action acts on the lower roll table 3, as shown in FIG. The whole thing lifts up slightly.

Then, a gap is created between the steel plate W and each of the rolls 5, 6, etc. below 1, as shown in Fig. 12.
The steel plate W advances from the curved part and raises the soil "J-ru 5" from t'7j.In this case, the "J-ru 5 (") is in contact with the curved part and then the "knoll 5 (") is raised, whether it is one or two 3 By the way, since the drive motor I2 on the upper roll 5 side rotates eight ten rolls 5, it rotates one or two ten rolls 5 as described above. When 8 (J) comes into contact with the steel plate W, the force of the drive motor 12 that rotates the 8 wood is concentrated on one or two of the upper rolls 5,
The upper J7-ru 5... is rotated l'' against the steel plate W being conveyed while being in strong contact with it.

However, the upper roll 5-tj: , lLi1 board\l
y, −) and strongly pressed y) are ζ, do 1 up ru 6・
The speed becomes slower, and a braking action is applied to the steel plate W due to dirt.

For this reason, a huge load is applied to the C-knoll shaft 5b and the transmission shaft 11a, so the roll shaft 51) of the upper roll 5 and the transmission shaft 11a must be made strong (J In other words, in preparation for the bending of the steel plate W, the equipment was oversized.

Means for Solving Problem 1] The present invention has been made in order to solve the above problem, in which a large number of conveying rolls are arranged in two stages of ``-1ζ'', and a number of conveying rolls are arranged in two stages. By sandwiching a steel plate between rolls and driving each roll to rotate, the steel plate is conveyed continuously, and at this time, a spray jet is placed between each roll and between each lower roll, and a water fountain comes out from a spray nozzle. In a cooling system for steel plates, at least one drive motor for rotating each trawl is installed, one for every two rolls. It is characterized by being driven by

1 Effect] Since the drive motor may rotate one or two 1 rolls, the capacity of these drive motors is
t can be very small.

In order to increase the size, a small drive motor with a small capacity is used.
1 roll or (for every 12 rolls, the upper roll is installed between the steel plate or the roll table of the upper F).
When the steel plate is cooled down, the steel plate is slightly curved (7), and this 6 curved part strongly contacts the upper part (7), and the steel plate is pressed against the drive motor (5). Almost enough force is generated to transport it, and the earth ``l-le is transported''.

Because of J-, the roll eaves of seven rolls (the load from the J drive motor is not great, so the strength of this roll shaft is reduced and the number of rolls is reduced to eight). See Figures 1 to 41
．． 31, Second Embodiment (J) In the conventional cooling device shown in FIGS. Di1. In the following, I will explain the second drive mechanism. The same symbols and components as in the conventional example are denoted by τj, and
9. In this embodiment (see Figures 2 and 3), there are two 1.
Shinor 5... every other time, that is, every other time, that [! A drive motor 21 is connected to the drive motor 21 via a speed reducer 20.

Also, on the side where the drive motor 21 is not connected,
(J gear hook 22
The gearbox 22 and reducer 20 are connected to each other.
Lure 23 is passed to the transmission gear which is built inside the J:.

As a result, two 17. [
: When the 7-roll 5 is set to 1 phase and each drive motor 2I is operated, the upper roll 5 will rotate independently for each set.

In the steel plate cooling device of this embodiment configured as described above, the drive motor 21 rotates the two upper wheels 5 and 5, so these drive The capacity of the motor 21 may be smaller than that of conventional drive motors.

For example, a steel plate is cooled by being cooled between the top tables 3 and 1, and the steel plate comes into strong contact with the 10-ru table 5 due to the slightly curved part. However, even if the steel plate is conveyed against this, almost no force is generated, and the steel plate simply rotates following the conveyed steel plate.

Therefore, since almost no load from the drive motor 21 is applied to the roll shaft 5b on the upper roll 5 side, the strength of the roll shaft 5b can be reduced.

Further, the drive motor 21 can be downsized as the capacity is reduced, and this small drive motor 21 can be installed via the reducer 20, so the device itself can be made compact, and the equipment can be made smaller and smaller. Weight reduction can be achieved.

FIGS. 4 and 5 show other embodiments of the present invention.

In this embodiment, a drive motor 31 is attached to each upper roll 5 through a reducer 30 so that each upper roll 5 can be rotated independently. be.

According to this embodiment, since the drive motor 31 only rotates one upper roll 5, its capacity may be half that of the drive motor 21 of the first embodiment. Therefore, the strength of the roll shaft 5b can be further reduced, and the equipment can be made smaller and the amount of B can be further reduced.

FIG. 6 is a diagram showing still another embodiment of the present invention.

In this embodiment, the roll shaft 51) of the upper roll 5...
A universal joint 40 that passes through the concave frame is attached to the outside of the concave frame.
A reducer 4 fixed to the gate-shaped frame 1 is attached to the protruding end of the
A drive motor 42 is connected via 1.

In this case, the two pieces of upper roll 5... are taken as one set, and this one
For each set, the universal joint 40, reducer 41 and drive motor 42 are provided as above, and a transmission belt (not shown) is passed between the reducer 41 and the roll shaft 51). The two upper rolls 5 are driven by the drive motor 42.
or each upper roll 5
A universal joint 40, a reduction gear 4I, and a drive motor 42 are provided for each unit, and one drive motor 42
Rotate one upper roll 5.

According to such a device, since the speed reducer 4I and the drive motor 42 are fixed to the gate-shaped frame 1, the weight of the upper roll table 3 is significantly reduced.

Therefore, it is possible to reduce the power consumption of the lifting jack 13 that raises and lowers the roll table 3, and there is an advantage that there is no need to install a counterweight I5 on the lifting frame I4. Moreover, it goes without saying that this embodiment has the same effects as the two embodiments described above.

Effects of the Invention As explained above, according to the steel plate cooling device of the present invention, one drive motor for rotating the upper rolls is provided for at least two upper rolls, and two or less upper rolls are rotated. ,
Since they are each driven independently, the following effects can be achieved.

(2) Since the drive motor only needs to rotate one or two upper rolls, the capacity of these drive motors is extremely small compared to conventional drive motors, allowing for miniaturization.

■According to this, one or two small drive motors are required.
If the steel plate is placed on the upper roll at a rate of one per book, when the steel plate is cooled between the upper and lower roll tables, the steel plate will be slightly curved and this curved portion will strongly contact the upper roll. Almost no force is generated in the drive motor to convey the steel plate against this force, and the upper roll merely rotates following the conveyed steel plate.

Therefore, since almost no load from the drive motor is applied to the roll shaft of the upper roll, the strength of this roll shaft can be reduced.

■The above ■■ makes it possible to reduce the size and weight of the equipment.

[Brief explanation of the drawing]

1 to 3 are views showing one embodiment of the present invention, in which FIG. 1 is a cross-sectional view taken in the direction of arrows, FIG. 2 is a plan view of the upper roll table in FIG. 1, and FIG. FIG. 1 is a drive system diagram of the upper and lower roll tables, and FIGS. 4 and 5 are diagrams showing other embodiments of the present invention. FIG. 6 is a cross-sectional view showing another embodiment of the present invention. Also, FIGS.
Figure fj: Figure 7 is a cross-sectional view of the rice technology, Figure 8 is a plan view of the roll table, and Figure 9 is the lower roll table. drive system diagram,
3. Figures 10 to 12 are diagrams for explaining the problems of the conventional technology. 5...-4-roll, 6...Troll, 8
- Spray nozzle, 21.31.42 - Drive motor. Applicant: Ishikawajima Harima Juji Niigyo Co., Ltd. Figure 4 Figure 6

Claims (1)

[Claims] A large number of conveyor rolls are arranged in two stages, upper and lower. A steel plate is sandwiched between these upper and lower conveyance rolls, and each roll is rotated to continuously convey the steel plate. In a steel plate cooling device that cools a steel plate with a fountain emitted from a spray nozzle arranged between the middle and each lower roll, a drive motor for rotating each of the upper rolls is provided at least one for each of the two upper rolls, A cooling device for a steel plate, characterized in that the two or less upper rolls are each independently driven.