CN1698987A - Plate reduction press apparatus and methods - Google Patents

Plate reduction press apparatus and methods Download PDF

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Publication number
CN1698987A
CN1698987A CN 200510071263 CN200510071263A CN1698987A CN 1698987 A CN1698987 A CN 1698987A CN 200510071263 CN200510071263 CN 200510071263 CN 200510071263 A CN200510071263 A CN 200510071263A CN 1698987 A CN1698987 A CN 1698987A
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China
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metal die
slab
pipeline
downstream
depressing
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CN 200510071263
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CN1315590C (en
Inventor
成岛茂树
井出贤一
百百泰
佐藤一幸
田添信广
佐藤久
藤井保弘
今井功
小幡俊彦
升田贞和
山科修一
池宗省三
村田早登史
横山隆
关根宏
本屋敷洋一
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IHI Corp
Nippon Steel Corp
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IHI Corp
Nippon Steel Corp
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Publication of CN1698987A publication Critical patent/CN1698987A/en
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Abstract

A material 1 to be shaped is reduced and formed by bringing dies with convex forming surfaces, when viewed from the side of the transfer line of the material 1, close to the transfer line from above and below the material 1, in synchronism with each other, while giving the dies a swinging motion in such a manner that the portions of the forming surfaces of the dies, in contact with the material 1, are transferred from the upstream to the downstream side in the direction of the transfer line.

Description

The presser device of thickness of slab and method thereof
The application is for dividing an application, and the application number of female case application is 98801364.9, and the applying date is: on September 11st, 1998, invention and created name is: the presser device of thickness of slab and method thereof.
Technical field
The present invention relates to a kind of limit carries the slab limit to depress the presser device and the method thereof of the thickness of slab of thickness of slab.
Background technology
1. Fig. 1 shows an example of the roughing mill that is used for hot rolling, this roughing mill has up and down the operation roller 2a of clamping pipeline S setting opposed to each other, 2b and the backing roll 3a that contacts with each operation roller from reverse pumping line sending side, 3b, wherein, pipeline is the pipeline that passes milling train with tabular with being formed material 1 approximate horizontal.
In above-mentioned roughing mill, operation roller 2a by making pipeline S top is along counter rotation, and the operation roller 2b of pipeline S below is rotated in a clockwise direction, the material 1 that the is formed two operation roller 2a that nip, in the time of between the 2b, the backing roll 3a of top is pushed downwards, the material 1 that is formed can and make the material 1 that is formed depress shaping in the thickness of slab direction from pipeline upstream A side direction pipeline downstream B side shifting, but, if do not make operation roller 2a, 2b is formed the engaging-in angle θ of material 1 relatively less than 17 °, then at the top and bottom and the two operation roller 2a of the material 1 that is formed, produce slippage between the outer peripheral face of 2b, this operation roller 2a, 2b can not engaging-inly be formed in the material 1.
That is, operation roller 2a is when the diameter D of 2b is 1200mm, according to above-mentioned operation roller 2a, the condition of the engaging-in angle θ of 2b depresses that drafts Δ T is about 50mm in the shaping for 1 time, and the thickness of slab T1 that depresses behind the material 1 that is formed that shaping thickness of slab T0 is 250mm with roughing mill is about 200mm.
For this reason, in the past,, be to carry out the limit to move back and forth material 1 limit that is formed to reduce the reversible of thickness of slab in proper order rolling for roughing mill, make the thickness of slab of the material 1 that is formed be about 90mm after, this material 1 of being formed is sent towards finishing mill.
In addition, also consider employing as shown in Figure 2, the metal die 14a that is provided with of clamping pipeline S opposed to each other up and down, 14b, wherein, the side view of metal die by reciprocating mechanisms such as eccentric shaft and connecting rod or oil hydraulic cylinders, makes two metal die 14a as the flat shape of the metal die of width pressure setting, 14b along synchronously approaching perpendicular to material 1 direction that is formed, deviate from the material 1 that is formed, to depress this material 1 that is formed of shaping in the thickness of slab direction.
Metal die 14a, 14b have from pipeline upstream A side gently to the smooth forming face 19a of the nearly pipeline S of pipeline downstream B side joint, 19b and with this forming face 19a, 19b links to each other and stands facing each other abreast in the smooth forming face 19c of pipeline S, 19d.
Metal die 14a, the width of 14b is set according to the plate of the material 1 that is formed wide (more than about 2000mm).
But, be formed during material 1 with roughing mill reversible shown in Figure 1 is rolling, owing to go up separately, must be provided with the place that the material of sending from roughing mill 1 that is formed is pulled out, thereby make the equipment lengthening in upstream A side and the downstream B side of the pipeline S of roughing mill.
With metal die 14a shown in Figure 2,14b depresses in the thickness of slab direction and is shaped when being formed material 1, the forming face 19a of material 1 owing to be formed relatively, 19b, 19c, the contact area of 19d is compared especially wide with the metal die of width pressure setting, and this contact area is along with metal die 14a, 14b increases near pipeline S, thus must be to each metal die 14a, and 14b applies the bigger load of depressing.
In addition, in order to make moving metal mould 14a, power transmission member such as the eccentric shaft of 14b and connecting rod or frame etc. possess the above-mentioned intensity of depressing load of adaptation, and these parts are maximized.
Have again, using metal die 14a, 14b will be formed material 1 when the thickness of slab direction is depressed shaping, because metal die 14a, the shape of 14b and shift motion, the material production that the material 1 that is formed extends to pipeline upstream A side retreats, and thus, the material 1 that is formed is difficult to send towards pipeline downstream B side.
In addition, with metal die 14a shown in Figure 2,14b depresses in the thickness of slab direction and is shaped when being formed material 1, look from the side of pipeline S, with use metal die 14a, 14b depresses the following position of the material 1 that is formed before being shaped and compares, and by metal die 14a, the material 1 following position that is formed after the thickness of slab reduction that 14b sends is half height of drafts.
Therefore, the fore-end of material 1 of being formed is sagging tendency, the fore-end of material 1 of being formed hangs over supporting metal die 14a, on the roller roller (not shown) of the material 1 that is formed of the pipeline downstream B side setting of 14b, tends to damage roller roller and the material both sides that are formed.
Have again, in recent years, proposed the presser device of walking finishing thickness of slab as shown in Figure 3.
The presser device of this walking finishing thickness of slab has upright being located on the assigned position of pipeline S, the frame 4 that the material 1 that can allow to be formed moves, clamping also is inlaid in last axle box 6a and following axle box 6b on the window portion 5 of frame 4 with standing facing each other pipeline S, roughly along horizontally extending perpendicular to pipeline S direction, and non-eccentricity part is bearing in upper-lower rotating shaft 7a on axle box 6a or time axle box 6b through bearing (not shown) axle, 7b, lay respectively at pipeline S up and down and base end part through bearing 8a, the 8b axle is bearing in aforementioned rotating shaft 7a, the connecting rod 9a that extends up and down on the eccentric part of 7b, 9b, through spherical bearing 10a, the 10b axle is bearing in connecting rod 9a, the above-below direction mid portion of 9b and can sliding up and down to is inlaid in the link supporting case 11a on the window portion 5 of frame 4,11b, through spherical bearing 12a, the 12b axle is bearing in connecting rod 9a, metal die seat 13a on the 9b leading section, 13b, be contained in this mould seat 13a, metal die 14a on the 13b, 14b, and cylinder body portion axle is bearing in connecting rod 9a, the above-below direction mid portion of 9b and piston rod leading section axle is bearing in metal die seat 13a, hydraulic cylinder 15a on the 13b, 15b.
Rotating shaft 7a, 7b is connected with the motor output shaft (not shown) with decelerator through universal coupling, during electric motor starting, last lower mold 14a, the relative pipeline S of 14b is synchronously approaching, deviate from.
Metal die 14a, 14b have from A side direction pipeline downstream, pipeline upstream B side gently near the smooth forming face 16a of pipeline S, 16b, and with this forming face 16a, 16b links to each other and stands facing each other abreast in the smooth forming face 17a of pipeline S, 17b.
Metal die 14a, the width of 14b is set according to the plate of the material 1 that is formed wide (more than about 2000mm).
The top of frame 4 is provided with and is used to make axle box 6a position approaching, that deviate from pipeline S to adjust bolt 18, adjusts bolt 18 by along the circumferential direction rotating this position, through rotating shaft 7a, and connecting rod 9a, metal die seat 13a can lifting metal die 14a.
Depress in the thickness of slab direction by the presser device of walking finishing thickness of slab shown in Figure 3 and to be shaped when being formed material 1, by along the circumferential direction suitably adjusting bolt 18 with respect to last axle box 6a position of rotation, according to setting lower mold 14a, the interval of 14b at the thickness of slab that the thickness of slab direction is depressed the material 1 that is formed of shaping.
Then, starter motor, make upper-lower rotating shaft 7a, in the time of the 7b rotation, the material 1 that is formed passes lower mold 14a, between the 14b, along with rotating shaft 7a, the displacement of 7b eccentric part pipeline S by the edge and is moved the last lower mold 14a that edge joint is near, deviate from pipeline S, 14b depresses the material 1 that is formed that is shaped towards the thickness of slab direction.
At this moment, suitable hydraulic pressure is imposed on hydraulic cylinder 15a, the piston rod side fluid chamber of 15b and piston head side liquid chamber, last lower mold 14a, 14b are near the forming face 17a of pipeline downstream B side, and 17b changes metal die seat 13a, the angle of 13b is so that pipeline S remains parallel relatively.
But, in the presser device of walking finishing thickness of slab shown in Figure 3, be formed the relatively metal die 14a of material 1, the forming face 16a of 14b, 16b, 17a, the metal die of the contact area of 17b and the presser device of thickness of slab etc. is compared especially big, because this contact area is along with metal die 14a, 14b increases near pipeline S, must be to metal die 14a, 14b applies the big load of depressing.
In addition, metal die 13a, 13b, connecting rod 9a, 9b, rotating shaft 7a, 7b, axle box 6a, 6b and frame 4 etc. must possess will with metal die 14a, what apply on the 14b depresses the intensity that load adapts, these parts certainly will maximize.
Have again, in the presser device of walking finishing thickness of slab shown in Figure 3, use lower mold 14a, 14b depresses to be shaped and is formed when the material 1, metal die 14a when the material 1 that is formed relatively, 14b separately depress position of centre of gravity when can not be roughly consistent, can make the part, end, front and back of depressing the material 1 that is formed after the shaping crooked to left and right direction, the curved surface etc. of moulding material 1 integrally bending of strip perhaps can take place.
2. between 2 work rolls in the common milling train of rolling in-process stock, because the restriction of angle of nip has limited the reduction ratio of common 25% front and back.For this reason, the sheet material that passes milling train can not have high drafts (for example thick in thick the depressing of 30-60mm from about 250mm) by once rolling (1 rolling pass), carry out 3-4 platform milling train be configured to one row tandem rolling, and the reversible of move back and forth stocking and rolling in-process stock is rolling, but has problems such as rolling line length.
On the other hand, but 1 rolling pass such as planetary rolling mill, sendzimir mill, cluster mill has been proposed as the rolling means under the high pressure.But, in these rolling means,, having and impact greatly because the minor diameter roller is contacted with pressing material under high speed, the bearing equivalent life is short, is not suitable for problems such as a large amount of plant-size equipments.
Have again, proposed will width trigger squeeze in the past to be used for the thick pressure setting of depressing (for example, Japan special fair 2-014139 number, the spy opens clear 61-222651 number, the spy opens flat 2-175011 number etc.).
For example, Te Kaiping 2-175011 number " walking finishing pressure setting ", as shown in Figure 4, above and below along the material pipeline Z that is formed, perhaps left and the right-hand rotating shaft 22 that is provided with, the hub portion of the eccentric part of this rotating shaft 22 and the connecting rod of required form 23 is chimeric, and, the metal die 24 that is provided with in the mode of the material pipeline that is formed is connected with the leading section of connecting rod 23 to stand facing each other, rotate rotating shaft 22, connecting rod 23 through being embedded in rotating shaft eccentric portion makes metal die 24 depress at the upper and lower surface of the material 1 that is formed, with the be formed thickness of material of minimizing.
But, adopt means under this high pressure, have (1) depresses stocking while carrying walking compacting difficulty, (2) device is complicated, and member is many, and it is many that (3) bear the position of suppressing load and sliding, and (4) are unsuitable for problems such as high capacity, high circulation.
In addition, under high pressure in the past, in the means, be by bolt, voussoir, oil hydraulic cylinder etc. are regulated the position of metal die, and with the thickness of proofreading and correct stocking, for this reason, it is huge to have equipment, cost height, complexity, the device also big problem of vibration that maximizes.
3. in the past, rolling for slab used roughing mill.The slab that is rolled is the billet slab of 5m-12m, in order to roll into the thickness of regulation, many roughing mills is set, and it is rolling to make slab advance, retreat rolling reversible.In addition, also can use trigger squeeze.In recent years, the rectangular slab of bringing into use continuous casting installation for casting to produce, hope can be transported to slab on the follow-up rolling device continuously.When carrying out roughing system with roughing mill, angle of nip restricted (about 17 °), 1 time subtracts thick amount Δ t under rolling is about 50mm.Because slab is continuous, it is rolling to carry out reversible, in order to reach desired thickness, the roughing mill number be become in upright arrangement and be provided with, or under 1 operational circumstances, must strengthen the diameter of operation roller significantly.
For this reason, working pressure machine.Fig. 5 depresses metal die and depresses the walking forcing press of slab while moving with slide block.The metal die 32 of clamping slab 1 and upper and lower settings is installed on the slide block 33, and slide block 33 is being with knee-action by crank mechanism 34.Metal die 32, slide block 33 and crank mechanism 34 move back and forth along the slab flow direction with crank mechanism 35 by feeding.Slab 1 is carried by pinch roll 36 and rollgang 37.During slab is depressed, by feeding crank mechanism 35, metal die 32, slide block 33 and crank mechanism 34 move along the slab flow direction, and pinch roll 36 is consistently carried slab 1 with this translational speed.In addition,, also can use during depressing, slab 1 is stopped, depress and finish the length that compacting is carried in the back as forcing press, and depress once more begin to stop mode.
Make above-mentioned major diameter roughing mill and cause difficult design, the cost height, the roller that becomes low speed rolling because of diameter greatly is difficult for cooling, has shortened the life-span of roller.And using slide block shown in Figure 5 and feeding with in the forcing press of crank mechanism, making slide block etc. along the reciprocating mechanism of slab flow direction complexity, huge, make the equipment price costliness.And the vibration of slide block above-below direction is also big.In the forcing press that begins the mode that stops, usually to making slab accelerate to transporting velocity from 0, from then on transporting velocity decelerates to 0 again.Slab is carried by pinch roll and rollgang and is realized, because acceleration and deceleration are big, makes equipment enlarging.
4. in the past, that is pressed material depressed length when long, long metal die of 1 usefulness, and perhaps depress is that next metal die length is pressed on feeding limit, limit at every turn.Become length direction at the moving direction of depressing by after pressing material, and when becoming width perpendicular to the direction of this length direction, what the scope of depressing of length direction was long relatively is pressed material, be to depress for 1 time with long metal die, perhaps repeatedly depress realization to being pressed the compacting of material by length direction feeding limit, edge at length direction.Fig. 6 shows a kind of like this forcing press, and Fig. 7 illustrates its action.Forcing press has the last lower mold 42 that material 1 is pressed in clamping, depresses the frame 44 of hydraulic cylinder 43 and this hydraulic cylinder 43 of supporting of this metal die 42.As compacting action, being L, the thickness of being pressed material 1 with the length of metal die 42 is illustrated when T is pressed down to the situation of t.Fig. 7 (A) illustrates and the position that becomes thickness t that is depressed joins, and metal die 42 is arranged on the locational state of the thickness T of depressing next time.(B) state of depressing under (A) state is shown.(C) illustrate under (B) state, metal die 42 leaves is pressed material 1, moves the length L of depressing, the state that the preparation of depressing next time finishes, and therefore, it is the state identical with (A).(A)-(C) repeatedly can depress desirable length.
Metal die is long and depress required power when big, and the presser device of thickness of slab just maximizes.Carrying out high speed during compacting repeatedly depresses.When moving back and forth the device of big quality at a high speed, the power required owing to acceleration and deceleration is big, and becomes big for the required power ratio of the acceleration and deceleration of depressing the power of being pressed material, makes that the required power of drive unit is very big.When depressing material because before depressing and the volume after depressing roughly the same, the volume behind the attenuate is in the expansion of length direction and width.When metal die is longer,, makes and depress difficulty, and be difficult to depress greatly owing to retrained the extension (being called flowing of material) of length direction.
In addition, when the usage level milling train is depressed stocking and is reduced thickness in the past, because relative material thickness after forming, set the roll gap of horizontal mill for the roller stocking of can nipping, cuttable thickness is limited in 1 rolling pass, in order to reduce thickness significantly, with the configuration in upright arrangement of horizontal mill number and depress, or horizontal mill repeatedly back and forth reduced thickness at leisure.As additive method, disclosed a kind of following method by Japanese kokai publication hei 2-175011 communique, eccentric part is set on rotating shaft, the motion of eccentric part is changed into moving up and down by connecting rod, move up and down by this, reduce stocking continuously.
The method of a horizontal mill number tandem (array) configuration had the problem that device maximizes, cost of equipment is high.In addition, the method with 1 horizontal mill reciprocating motion stocking has the long problem of complicated operation rolling time.The method that Te Kaiping 2-175011 communique is put down in writing is owing to being that motion with the eccentric part of rotating shaft changes into to move up and down and exports the power of depressing (roll-force), in order to export the roll-force of regulation, must give rotating shaft sizable torque, have the problem of equipment enlarging.
5. in the past, slab rolling used roughing mill.Wanting rolling slab is the short slab base of 5m-12m, in order to form the thickness of regulation, roughing mill is provided with several, and makes slab advance, retreat with the reversible that is rolled rolling.Also can use while depressing the walking forcing press of carrying slab, and the conveying that stops to be pressed material when depressing, when not depressing, carry the forcing press that begins the mode that stops of being pressed material.
The rectangular slab that uses continuous casting installation for casting to produce wishes to carry continuous slab in follow-up rolling device.During with roughing mill roughing system, limited angle of nip (about 17 °), 1 time in rolling to subtract thick degree little.Because slab is continuous, it is rolling to carry out reversible, in order to arrive desirable thickness, roughing mill number in upright arrangement a setting perhaps must must be strengthened the operation roller diameter significantly when 1 operation.Make large diameter like this roughing mill and be difficult to all on design, cost realize that the roller that becomes low speed rolling because of diameter greatly is difficult to cooling, thereby has shortened the life-span of roller.Because walking forcing press drafts is big, and can depress while carrying and be pressed material, so can be pressed material be transported to continuously on the milling train in downstream, but can be depressed simultaneously or rolling and the adjustment of being pressed material speed is difficult to for the milling train that makes walking forcing press and downstream.In addition, during depressing, stop to be pressed the conveying of material, forcing press that begins the mode that stops and the milling train of carrying when not depressing with forcing press, can not tandem configuration and continuous rolling.
In addition, the transporting velocity of also using the slide block to depress plate slab and the plate slab high speed mode of knee-action consistently.
Under the situation that begins the mode that stops, the greater weight plate slab is 0 to maximal rate Vmax from speed, wants acceleration and deceleration in 1 circulation, makes conveying equipments such as pinch roll or rollgang become big capacity.In addition, owing to be discontinuous action, very difficult with the serialization of the rolling equipment in downstream.Under the situation of high speed mode, must have make heavy weight slide block and plate slab speed consistently, the swing acceleration and deceleration jumbo pendulous device.In addition, have because jumbo pendulous device and the big problem of vibration on the forcing press.
Have again, when plate slab and ram speed are inconsistent, have the problem that has scar on the plate slab, can damage device.
And, developed a kind of high pressure downforce machine recently, make heavy slab (by stocking) can form nearly 1/3 thickness just once depressing in the action.Fig. 8 shows a thick example of depressing forcing press that is used for hot rolling.This thick depressing in the forcing press, the metal die 52a of clamping pipeline S, 52b is opposite disposed up and down, by eccentric shaft and connecting rod, perhaps reciprocator 53a such as oil hydraulic cylinder, 53b, two metal die 52a, 52b is depressed simultaneously, contacts, deviates from by stocking 1 with respect to what move on pipeline S, only 1 time depress in the action, just being depressed by stocking of for example thickness of slab 250mm can be configured as 90mm.
But when suppressing under carrying out above-mentioned high pressure, 1 drafts is 160mm, and one-sided drafts also can be 80mm.Because before the rolling processing in the past and the thickness difference after handling seldom, so the transporting flat of milling train input side conveying device and outlet side conveying device roughly is identical, but when under above-mentioned high pressure, suppressing,, have by the problem of stocking 1 bending as same transporting flat.In addition, also has the problem that is applied with excessive load on the conveying device.
Summary of the invention
1. the 1st purpose of the present invention is in view of the above problems, provide a kind of material that is formed that can make to carry out the shaping of depressing effectively along the thickness of slab direction, can positively carry the material that is formed, the load of depressing that gives metal die can be alleviated, presser device and the method thereof of material that be formed of shaping can be suppressed to depress towards the thickness of slab that bends right and left.
For realizing above-mentioned the 1st purpose, in the pressing plate method of technical scheme 1 described thickness of slab of the present invention, look, have metal die towards the outstanding convex surface shape forming face of this pipeline from the pipeline side, this metal die is from the time swing up and down synchronously near pipeline of the material that is formed, so that make forming face with the material joining part that is formed from the transition of pipeline downstream to the pipeline upstream side, thereby depress the material that is formed that is shaped along the thickness of slab direction.
In the presser device of technical scheme 2 described thicknesss of slab of the present invention, have the metal die received block of the opposite disposed up and down of clamping pipeline, wherein pipeline is the be formed pipeline of material of lateral transfer; Be contained on this metal die received block and and look, have metal die towards the outstanding convex surface shape forming face of this pipeline from the pipeline side; Be separately positioned on the reverse pumping line sending side of each metal die received block and the upstream side eccentric shaft that extends along the pipeline width; Be configured in the reverse pumping line sending side of each metal die received block respectively in the ground, pipeline downstream of upstream side eccentric shaft side by side, and have the downstream eccentric shaft of the eccentric part different with the eccentric part phase place of upstream side eccentric shaft; The close pipeline upstream side that the leading section axle is bearing in the metal die received block is partly gone up and the base end part axle is bearing in the upstream side connecting rod on the eccentric part of upstream side eccentric shaft; The leading section axle is bearing on the close pipeline downstream part of metal die received block and the base end part axle is bearing in the downstream connecting rod on the eccentric part of downstream eccentric shaft; Make described metal die received block move forward and backward mechanism along the metal die that the pipeline direction does relatively reciprocating motion.
In the presser device of technical scheme 3 described thicknesss of slab of the present invention, the metal die in the presser device of technical scheme 2 described thicknesss of slab of the present invention moves forward and backward mechanism and is fixed on the arm spare on the metal die received block by an end and is arranged near the metal die received block and guides the guiding parts of described arm spare the other end to constitute.
In the presser device of technical scheme 4 described thicknesss of slab of the present invention, the metal die in the presser device of technical scheme 2 described thicknesss of slab of the present invention moves forward and backward that mechanism is bearing on the metal die received block by an end axis and the other end axle is bearing in the driver of the stretch mode on the fixed part of regulation constitutes.
In the presser device of technical scheme 5 described thicknesss of slab of the present invention, the metal die in the presser device of technical scheme 2 described thicknesss of slab of the present invention move forward and backward mechanism by being arranged on that near the metal die received block a front and back action eccentric shaft and an end axis are bearing on the metal die received block and the other end axle be bearing in before and after front and back action link rod on the eccentric part of action eccentric shaft constitute.
In the presser device of technical scheme 6 described thicknesss of slab of the present invention, the metal die in the presser device of technical scheme 2 described thicknesss of slab of the present invention moves forward and backward that mechanism is bearing on the metal die received block by an end axis and rod member that the other end axle is bearing on the fixed part of regulation constitutes.
In the pressing plate method of technical scheme 1 described thickness of slab of the present invention, have metal die respectively towards the outstanding curved forming face of male bend of pipeline, one side synchronously swinging on one side up and down from the material that is formed near pipeline, the part of joining with the material that is formed that makes forming face from the pipeline downstream to the transition of pipeline upstream side, the forming face and the contact area of the material that is formed are diminished, alleviate the load of depressing metal die.
In the presser device of the described arbitrary thickness of slab of technical scheme 2-6 of the present invention, also by the upstream side eccentric shaft, the downstream eccentric shaft, the upstream side connecting rod, the downstream connecting rod, make the metal die received block swing that metal die is housed, so that the part of joining with the material that is formed of the forming face of metal die from the pipeline downstream to the transition of pipeline upstream side, simultaneously, make the metal die received block near pipeline, the forming face of metal die is diminished to the contact area of the material that is formed, alleviate the load of depressing metal die.
And, when the forming face of metal die contacts with the material that is formed, move forward and backward mechanism by metal die, the metal die received block is moved to the pipeline downstream, the material that is formed that does not make material will depress shaping is sent to the pipeline downstream with retreating.
In addition, for realizing above-mentioned the 1st purpose, in the presser device of technical scheme 7 described thicknesss of slab of the present invention, have with respect to be formed be provided with opposed to each other up and down and synchronously approaching mutually, as the to deviate from pipeline metal die of pipeline of material of lateral transfer; Be configured in a plurality of upstream side roller rollers on the pipeline upstream side of metal die, so that can approximate horizontal support the lower surface that will pass the material that is formed between metal die; Liftably be configured in a plurality of downstreams rise and fall roller roller on the pipeline downstream of metal die, so that can support from the lower surface of the material of sending between the metal die that is formed; Be configured in a plurality of downstreams roller roller on the pipeline downstream of downstream rise and fall roller roller, so as can with and described upstream side roller roller roughly sustained height ground horizontal supporting from the lower surface of the material of sending between the metal die that is formed.
In the presser device of technical scheme 8 described thicknesss of slab of the present invention, have with respect to be formed be provided with opposed to each other up and down and synchronously approaching mutually, as the to deviate from pipeline metal die of pipeline of material of lateral transfer; Liftably be configured in a plurality of upstream side rise and fall roller rollers on the pipeline upstream side of metal die, so that can support the lower surface that will pass the material that is formed between the metal die; Be configured in a plurality of downstreams roller roller on the pipeline downstream of metal die, so that can support from the lower surface of the material of sending between the metal die that is formed.
In the presser device of technical scheme 9 described thicknesss of slab of the present invention, have with respect to be formed be provided with opposed to each other up and down and synchronously approaching mutually, as the to deviate from pipeline metal die of pipeline of material of lateral transfer; Liftably be configured in a plurality of upstream side rise and fall roller rollers on the pipeline upstream side of metal die, so that can support the lower surface that will pass the material that is formed between metal die; Be configured in a plurality of downstreams rise and fall roller roller on the pipeline downstream of metal die, so that can support from the lower surface of the material of sending between the metal die that is formed.
In the using method of the presser device of technical scheme 10 described thicknesss of slab of the present invention, being formed that material passes between the lower mold and depressing in the thickness of slab direction with two metal dies at strip is shaped when being formed material, will make the material of sending from metal die that is formed roughly be level near the above-below direction set positions one-tenth of the downstream rise and fall roller roller of metal die; The set positions of above-below direction that keeps clear of the downstream rise and fall roller roller of metal die is become the material that is formed is slowly descended towards the downstream roller roller.
In the using method of the presser device of technical scheme 11 described thicknesss of slab of the present invention, being formed that material passes between the lower mold and depressing in the thickness of slab direction with two metal dies at strip is shaped when being formed material, will make the material that is formed that passes metal die roughly be level near the above-below direction set positions one-tenth of the upstream side rise and fall roller roller of metal die.
In the using method of the presser device of technical scheme 12 described thicknesss of slab of the present invention, being formed that material passes between the lower mold and depressing in the thickness of slab direction with two metal dies at strip is shaped when being formed material, will become to make to pass the material and roughly be level from the material that is formed that metal die is sent of being formed of metal die near the above-below direction set positions of the upstream side rise and fall roller roller of metal die and downstream rise and fall roller roller.
In the using method of the presser device of technical scheme 13 described thicknesss of slab of the present invention, strip be formed material from pass and do not use between the lower mold two metal dies to depress to be shaped when being formed material in the thickness of slab direction, the upper surface set positions of downstream rise and fall roller roller is become identical with upstream side roller roller and downstream roller roller.
In the using method of the presser device of technical scheme 14 described thicknesss of slab of the present invention, when the strip material that is formed is shaped when being formed material from passing between the last lower mold and not depressed in the thickness of slab direction by two metal dies, the upper surface set positions of upstream side rise and fall roller roller is become identical with the downstream roller roller.
In the using method of the presser device of technical scheme 15 described thicknesss of slab of the present invention, when the strip material that is formed is shaped when being formed material from passing and do not use two metal dies to depress in the thickness of slab direction between the last lower mold, the upper surface set positions of upstream side rise and fall roller roller and downstream rise and fall roller roller is become identical.
In the presser device of technical scheme 7 described thicknesss of slab of the present invention, position to the above-below direction of the downstream rise and fall roller roller in the pipeline downstream that is configured in metal die, according to metal die the material that is formed is adjusted in the shaping amount of depressing of thickness of slab direction, and, support from the lower surface of the material of sending between the metal die that is formed with optimal state.
In the presser device of technical scheme 8 described thicknesss of slab of the present invention, position to the above-below direction of the upstream side rise and fall roller roller of the pipeline upstream side that is configured in metal die, according to metal die the material that is formed is adjusted in the shaping amount of depressing of thickness of slab direction, and with optimal state, the lower surface of the material that is formed between the metal die is passed in supporting.
In the presser device of technical solution of the present invention 9 described thicknesss of slab, to the upstream side rise and fall roller roller of the pipeline upstream side that is configured in metal die be configured in the position of downstream rise and fall roller roller above-below direction separately in the pipeline downstream of metal die, according to metal die the material that is formed is adjusted in the shaping amount of depressing of thickness of slab direction, and with optimal state, supporting is passed between the metal die and from the lower surface of the material that is formed sent between the metal die.
In the using method of the presser device of technical scheme 10 described thicknesss of slab of the present invention, to become to make near the set positions of the downstream rise and fall roller roller above-below direction of pipeline upstream from the material of sending between the metal die of depressing after the shaping that is formed and roughly be level, and, to become the material of sending from this downstream roller roller that is formed is slowly descended towards the downstream roller roller near the set positions of the downstream rise and fall roller roller above-below direction in pipeline downstream, so that the gliding smoothing ground of depressing the part after the shaping of the material that is formed carries out.
In the using method of the presser device of technical scheme 11 described thicknesss of slab of the present invention, become the material of depressing after the shaping that is formed make from passing between the metal die roughly to be level upstream side rise and fall roller roller above-below direction set positions, the gliding smoothing ground of the part that is shaped carries out so that the material that is formed will be depressed.
In the using method of the presser device of technical scheme 12 described thicknesss of slab of the present invention, become to make the material that is formed depressing before being shaped that inserts between the metal die roughly to be level the set positions of the above-below direction of upstream side rise and fall roller roller and downstream rise and fall roller roller, and roughly be level from the material of sending between the metal die of depressing after the shaping that is formed, part that is shaped and the gliding smoothing ground of depressing shaped portion carry out so that the material that is formed will be depressed.
In the using method of the presser device of technical scheme 13 described high pressure thicknesss of slab of the present invention, the set positions of downstream rise and fall roller roller above-below direction is become consistent with upstream side roller roller and downstream roller roller, not depressing when being shaped, the gliding smoothing ground by the material that is formed between the metal die carries out.
In the using method of the presser device of technical scheme 14 described thicknesss of slab of the present invention, the set positions of upstream side rise and fall roller roller above-below direction is become consistent with the downstream roller roller, so that do not depress when being shaped, the gliding smoothing ground by the material that is formed between the metal die carries out.
In the using method of the presser device of technical scheme 15 described thicknesss of slab of the present invention, the set positions of the upstream side rise and fall roller roller and the above-below direction of downstream rise and fall roller roller is become identical, so that do not depress when being shaped, the gliding smoothing ground by the material that is formed between the metal die carries out.
In addition, for realizing above-mentioned the 1st purpose, in the pressing plate method of technical scheme 16 described thicknesss of slab of the present invention, carry out the reduction of the 1st thickness of slab, order is, from the pipeline upstream side downstream side shifting the material that is formed about, make have stand facing each other in the upstream side metal die of the forming face of the material that is formed mutually synchronously the edge joint material limit that closely is formed move towards the pipeline downstream, and the limit deviates from the material limit that is formed moves towards the pipeline upstream side, so that depress shaping along the thickness of slab direction of the material that is formed; Carry out the reduction of the 2nd thickness of slab, order is, carried out from the material that is formed the reduction of the 1st thickness of slab part about, make and have the downstream metal die that stands facing each other in the forming face of the material that is formed, with with described upstream side metal die opposite phases, synchronously move to the pipeline downstream on the edge joint material limit that closely is formed mutually, and the limit deviates from the material limit that is formed and move towards the pipeline upstream side, so that depress the material that is formed that is shaped along the thickness of slab direction.
In the presser device of technical scheme 17 described thicknesss of slab of the present invention, have with respect to the conveying upstream side slide block that the pipeline of material is provided with up and down opposed to each other that is formed; Make the upstream side slide block travel mechanism that described upstream side slide block is approaching, deviate from pipeline; Can be installed on the upstream side slide block movably and have the upstream side metal die that stands facing each other in the forming face of pipeline along the pipeline direction; Move back and forth the upstream side metal die travel mechanism of this upstream side metal die along pipeline; Be positioned at the pipeline downstream of described upstream side slide block and the downstream slide block that is provided with opposed to each other up and down with respect to pipeline; Make the downstream slide block travel mechanism that described downstream slide block is approaching, deviate from pipeline; Can be installed on the slide block of downstream movably and have the downstream metal die that stands facing each other in the forming face of pipeline along the pipeline direction; And the downstream metal die travel mechanism that moves back and forth this downstream metal die along pipeline.
In addition, in the presser device of technical scheme 18 described thicknesss of slab of the present invention, except the formation of the presser device of aforesaid technical scheme 17 described thicknesss of slab of the present invention, also comprise, upstream side slide block travel mechanism is by the upstream side bent axle on the reverse pumping line sending side that is arranged on the upstream side slide block, and an end axis is bearing in the eccentric part of upstream side bent axle and upstream side connecting rod that the other end axle is bearing on the upstream side slide block constitutes; Downstream slide block travel mechanism is by the downstream bent axle on the reverse pumping line sending side that is arranged on the downstream slide block, and an end axis is bearing in the eccentric part of downstream bent axle and downstream connecting rod that the other end axle is bearing on the slide block of downstream constitutes.
Have again, in the presser device of technical scheme 19 described thicknesss of slab of the present invention, except the formation of the presser device of aforesaid technical scheme 18 described thicknesss of slab of the present invention, also has synchronous drive mechanism, so that upstream side bent axle and downstream bent axle are synchronously rotated so that 180 ° of phase difference ground of eccentric part maintenance of two bent axles are equidirectional.
In addition, in the presser device of technical scheme 20 described thicknesss of slab of the present invention, except the formation of the presser device of aforesaid technical scheme 18 of the present invention or 19 described thicknesss of slab, comprise that also upstream side bent axle and downstream bent axle are towards perpendicular to the direction approximate horizontal ground axle suspension of pipeline.
In the pressing plate method of technical scheme 16 described thicknesss of slab of the present invention, the shaped portion of not depressing of material is formed, after having carried out depressing the 1st thickness of slab reduction of shaping along the thickness of slab direction by up and down upstream side metal die, the 1st of the material that is formed is depressed the shaping latter end carried out depressing the 2nd thickness of slab reduction of shaping along the thickness of slab direction, to depress the material that is formed that is shaped effectively in the thickness of slab direction by up and down upstream side metal die.
And, alternately carry out to the 1st thickness of slab reduction of not depressing shaped portion of the material that is formed with to the 2nd thickness of slab reduction of the 1st thickness of slab reduction latter end of the material that is formed, put on the load of depressing that upstream side metal die and downstream metal die go up separately and alleviated.
In the presser device of technical scheme 17 or technical scheme 18 described thicknesss of slab, also comprise, by upstream side slide block travel mechanism, make upstream side slide block and upstream side metal die thereof near pipeline, depress the shaped portion of not depressing of the material that is formed in the thickness of slab direction with upstream side metal die up and down, then, by downstream slide block travel mechanism, make downstream slide block and downstream metal die thereof near pipeline, the part of having been depressed by the upstream side metal die of the material that is formed is depressed in the thickness of slab direction with downstream metal die up and down, to depress the material that is formed that is shaped effectively in the thickness of slab direction.
In addition, by upstream side slide block travel mechanism make the upstream side metal die approaching, deviate from pipeline, with make by downstream slide block travel mechanism the downstream metal die approaching, deviate from pipeline and under opposite phases, carry out, like this, put on the load of depressing that upstream side metal die and downstream metal die go up is separately alleviated.
Have again, for realizing above-mentioned the 1st purpose, in the presser device of technical scheme 21 described thicknesss of slab of the present invention, have up and down opposed to each other and synchronously approaching mutually, as to deviate from the material pipeline that is formed pair of metal mould with respect to the pipeline setting of the material that is formed; Extremely disposing the upstream side flipper guide that is provided with and has a pair of flipper guide main body of can be approaching, deviating from pipeline along the width of the material that is formed with respect to pipeline opposed to each other near the pipeline upstream side of this metal die; Extremely disposing the downstream flipper guide that is provided with and has a pair of flipper guide main body of can be approaching, deviating from pipeline along the width of the material that is formed with respect to pipeline opposed to each other near the pipeline downstream of described metal die.
And in the presser device of technical scheme 22 described thicknesss of slab of the present invention, the pipeline that has with respect to the material that is formed is provided with up and down and synchronously approaching mutually, as to deviate from the material pipeline that is formed pair of metal mould opposed to each other; Extremely disposing the upstream side flipper guide that is provided with and has a pair of flipper guide main body of can be approaching, deviating from pipeline along the width of the material that is formed with respect to pipeline opposed to each other near the pipeline upstream side of this metal die; Axle is bearing in upstream side rigid roller on each upstream side flipper guide, so as can and the side edge by the material width direction that is formed between the upstream side flipper guide; Extremely disposing the downstream flipper guide that is provided with and has a pair of flipper guide main body of can be approaching, deviating from pipeline along the width of the material that is formed with respect to pipeline opposed to each other near the pipeline downstream of described metal die; Be bearing in downstream rigid roller on each downstream flipper guide with axle, so as can and the side edge by the material width direction that is formed between the flipper guide of downstream.
In the presser device of technical scheme 21 of the present invention or technical scheme 22 described thicknesss of slab, also comprise, to move to the material that the is formed downstream, that will depress shaping from the pipeline upstream side is gone up between the lower mold by the left and right sides guide plate main body importing of upstream side flipper guide, and depress shaping, and suppress by the left and right sides guide plate main body of downstream flipper guide to the material bending to the left and right that is formed that the pipeline downstream is sent by metal die.
And, in the presser device of technical scheme 22 described thicknesss of slab of the present invention, left and right sides guide plate main body by the upstream side flipper guide imports between the metal die, the be formed width edge portion of material is guided by the upstream side rigid roller, the slip of material width direction edge portion with respect to the flipper guide main body prevents to be formed, and, crooked to the left and right by the restriction of the left and right sides guide plate main body of downstream flipper guide, the be formed width edge portion of material is guided by the downstream rigid roller, and the slip of material width direction edge portion with respect to the flipper guide main body prevents to be formed.
2. the 2nd purpose of the present invention provides a kind of (1) but depresses the walking forcing press of stocking while carrying, (2) few, the simple structure of member, (3) bear trigger squeeze load and the position of sliding is few, (4) can move under high load capacity and high circulation, (5) just can be regulated the position of metal die with simple structure and can proofread and correct the presser device of the thickness of slab of stocking thickness.
Adopt the presser device of technical scheme 23 described thicknesss of slab of the present invention, a kind of presser device of thickness of slab is provided, it is characterized in that, have and pressed material opposite disposed and the driving shaft up and down that is driven in rotation up and down; What one end was embedded in that on this driving shaft and the other end rotates freely connection mutually with being free to slide depresses framework up and down; But along continuous straight runs supports this horizontal guide of depressing the connecting portion of framework movably; With with respect to being pressed material to be installed in the last lower mold of depressing up and down on framework one end opposed to each other; Driving shaft has the 1 pair of eccentric shaft that is positioned at width both ends and mutual phase shifting separately up and down, by the rotation of driving shaft, makes rolling limit, lower mold limit open, close, and the compacting limit carries quilt to press material so that roll in the limit.
Adopt the formation of the invention described above, when rotating driveshaft, the rotation of 1 pair of eccentric shaft by mutual phase shifting, when last lower mold carries out circular motion separately in the unlatching of rolling limit, width limit, close.Therefore, move, can carry by stocking while depressing on one side close an edge pipeline direction by last lower mold.And, while, can alleviate the compacting load owing to be to roll to close lower mold.Its drafts can be subjected under the high pressure of angle of nip restriction by the offset decision of eccentric shaft.In addition, owing to carry by stocking, can realize the walking compacting while depressing.
In addition, what bear the compacting load only is eccentric shaft, offset the load of depressing on the framework to be acted on moment, less relatively just only acting on the horizontal guide, and since the moment that acts on the framework of depressing up and down cancel out each other, so only effect has very little load.Therefore, can make member few, simple structure is born compacting load and the position of sliding is few, can carry out the running of high load capacity and high circulation.
Adopt the presser device of technical scheme 24 described thicknesss of slab of the present invention, be provided with the drive unit of rotating driveshaft, the rotating speed of this drive unit is variable, is that linear velocity when metal die is depressed is roughly consistent with the feed rate of being pressed material with speed setting.
By this structure, the linear velocity that can make metal die can alleviate the load of the drive unit that drives the driving shaft rotation with roughly consistent by the feed rate of stocking (slab).
And the presser device of employing technical scheme 25 described thicknesss of slab has the looper that lax shape keeps being pressed material in the downstream.By this structure, the linear velocity of metal die with can be absorbed by looper by the difference of the feed rate of stocking, can make the finish rolling equipment and the linear velocity that are positioned at downstream more synchronous.
In addition, adopt the presser device of technical scheme 26 described thicknesss of slab, a kind of presser device of thickness of slab is provided, it is characterized in that, have and pressed material opposite disposed and the bent axle up and down that is driven in rotation up and down; What one end was embedded in that on this bent axle and the other end rotates freely connection mutually with being free to slide depresses framework up and down; But along continuous straight runs supports this horizontal guide of depressing the connecting portion of framework movably; With with respect to being pressed material to be installed in the last lower mold of depressing up and down on framework one end opposed to each other; By the rotation of bent axle, make lower mold open, close, so that carry by the pressure material while depressing.
Adopt the formation of the invention described above, by the rotation of bent axle, last lower mold limit separately carries out the unlatching of circular motion limit, closes.Therefore, move, can carry by stocking while depressing on one side close an edge pipeline direction by last lower mold.Its drafts can be subjected under the high pressure of angle of nip restriction by the offset decision of eccentric shaft.In addition, owing to carry by stocking, can realize the walking compacting while depressing.
In addition, what bear the compacting load only is eccentric shaft, offset the load of depressing on the framework to be acted on moment, less relatively just only acting on the horizontal guide, and since the moment that acts on the framework of depressing up and down cancel out each other, so only effect has very little load.Therefore, can make member few, simple structure is born compacting load and the position of sliding is few, can carry out the running of high load capacity and high circulation.
Adopt the presser device of technical scheme 27 described thicknesss of slab, be provided with the drive unit of turning crankshaft, the rotating speed of this drive unit is variable, and the linear velocity when speed setting is become metal die is depressed is roughly consistent with the feed rate of being pressed material.
By this structure, the linear velocity that can make metal die can alleviate the load of the drive unit that drives the driving shaft rotation with roughly consistent by the feed rate of stocking (slab).
And the presser device of employing technical scheme 28 described thicknesss of slab has the looper that lax shape keeps being pressed material in the downstream.By this structure, the linear velocity of metal die with can be absorbed by looper by the difference of the feed rate of stocking, can make the finishing mill and the linear velocity that are positioned at downstream more synchronous.
Have again, adopt the presser device of technical scheme 29 described thicknesss of slab, be provided with and be held on metal die and depress between the framework, adjust the plate of Height Adjustment up and down of die attach metallization.By changing this Height Adjustment plate, can freely adjust the height of metal die, with comparisons such as bolt in the past, good rigidly, simple in structure, compact, vibration and fault are few, and maintenance is easy, and can reduce cost.
In addition, adopt the pressing plate method of technical scheme 30 described thicknesss of slab of the present invention, a kind of drawing method of hot rolling slab is provided, it is characterized in that, the feed rate of being pressed material is variable with respect to the maximum line velocity of metal die.Adopt preferred embodiment of the present invention, the compacting beginning can change the feed rate of being pressed material when being later than midway early than described maximal rate.
Have again, adopt the presser device of the thickness of slab of technical scheme 32 of the present invention, a kind of presser device of thickness of slab is provided, it is characterized in that, have and pressed material opposite disposed and the driving eccentric shaft up and down that is driven in rotation up and down; Drive the synchronous eccentric shaft up and down of eccentric shaft rotation round this; What one end can be embedded in that on this synchronous eccentric shaft and the other end can rotate freely connection mutually with being free to slide depresses framework up and down; Be installed in the last lower mold of depressing up and down on framework one end with being opposite to with being pressed material; By driving the rotation of eccentric shaft up and down, make lower mold open, close, so that when metal die is depressed,, the linear velocity of depressing framework is synchronously depressed with the linear velocity of being pressed material pressed material by synchronous eccentric shaft.
Adopt the formation of the invention described above, when rotating driveshaft, eccentric shaft rotates round fixed axis up and down, by the rotation of this eccentric shaft, opens, closes while last lower mold carries out circular motion separately.In addition, when metal die is depressed, by synchronous eccentric shaft, make the linear velocity of depressing framework with synchronous by stocking, can be depressed by stocking one edge line direction by last lower mold on one side and move, its drafts is by the offset decision of eccentric shaft, can not be subjected under the high pressure of restriction such as angle of nip.
In addition, what bear the compacting load only is the eccentric shaft (dual eccentric shaft) that rotates round fixed axis, just only acting on the connecting portion and to offset the load of depressing on the framework to be acted on moment, less relatively, and, very little load is arranged so only act on because the moment of depressing on the framework about acting on is cancelled out each other.Therefore, member is few, and simple structure is born compacting load and the position of sliding is few, can high load capacity and height turn round circularly.
3. the 3rd purpose of the present invention provide a kind of can the limit carry the slab limit under high pressure depress plate be thick under the rate, structure is fairly simple, depress vibration that action causes less, can shorten the presser device and the method thereof of the thickness of slab of the necessary length of line direction.
For realizing above-mentioned the 3rd purpose, in the invention of technical scheme 33, have and pressed the bent axle of material upper and lower settings, can be embedded in the slide block of the off-centre rotation on this bent axle with being free to slide, the time place the drive unit that is arranged on the metal die on this slide block with pressing material and drives described crankshaft rotating; Described bent axle by with the chimeric eccentric shaft of described slide block and be arranged on these eccentric shaft both sides, the bolster in axle center with axle center off-centre of relative eccentric shaft constitutes, at least one side of this bolster, be provided with and the eccentric direction of the described eccentric shaft counterweight of eccentric 180 ° of directions roughly.
Because bent axle directly is embedded on the slide block, when crankshaft rotating, because eccentric shaft is around the bolster eccentric rotary, so slide block knee-action and depressing when being pressed material also makes and pressed material being pressed the material flow direction to move back and forth.Thus, when depressing because of slide block and metal die also towards being pressed the material flow direction to move, so do not need sending in shown in Figure 8 the depressing to use mechanism.Thereby can realize the walking compacting, and member is few, simple structure.In addition,, can offset the plus-minus acceleration that produces on the slide block, reduce vibration owing on bolster, be provided with and the eccentric direction of the eccentric shaft counterweight of eccentric 180 ° of directions roughly.
In the invention of technical scheme 34, have clamping and pressed the bent axle of material upper and lower settings, one end is embedded on this bent axle and eccentric rotary with being free to slide, and the other end rotate freely connection mutually depress framework up and down, but along continuous straight runs supports the horizontally-guided device of this connecting portion of depressing framework movably, be opposite to and be arranged on the drive unit that this is depressed the metal die on framework one end and drives described crankshaft rotating with being pressed material; Described bent axle by with the chimeric eccentric shaft of described slide block and be arranged on these eccentric shaft both sides, the bolster in axle center with axle center off-centre of relative eccentric shaft constitutes, at least one side of this bolster, be provided with and the eccentric direction of the described eccentric shaft counterweight of eccentric 180 ° of directions roughly.
Adopt this structure, because an end of depressing framework is eccentric rotary by the rotation of bent axle, and make by the pressure material along the reciprocating motion of quilt pressure material flow direction owing to coupled metal die knee-action, when depressing by the pressure material, so can be by the direction of rotation of selected bent axle, pressed the flow direction of material to move when metal die court is depressed, being become the walking compacting.And, owing to the other end of depressing framework up and down can connect mutually with rotating freely, and be directed only moving towards horizontal direction, can bear the moment that reaction force produces in absorption pressure end of following time one.The present invention does not need the feed mechanism in shown in Figure 8 the depressing yet.For this reason, member is few, simple structure.In addition,, can offset the plus-minus acceleration that produces on the slide block, reduce vibration owing on bolster, be provided with and the eccentric direction of the eccentric shaft counterweight of eccentric 180 ° of directions roughly.
In the invention of technical scheme 35, described counterweight has the sufficient quality of savings rotating energy, also can be as flywheel work.
Counterweight because of having sufficient quality, can have the function of flywheel owing to around the bolster rotation, can put aside rotating energy.
In the invention of technical scheme 36, the inertia force that off-centre produced of described counterweight is set inertia force or the described inertia force of depressing an end of framework that can roughly offset described slide block for.
Because of above-mentioned structure, can reduce the vibration of the trigger squeeze of technical scheme 33 and 34 significantly.
For realizing above-mentioned the 3rd purpose, in the invention of technical scheme 37, has metal die in the slab upper and lower settings, be arranged on each metal die, up and down with the slide block of swing metal die, with the drive unit that drives this slide block, described slide block has body and bent axle, the slide block body has the circular hole that central axis is arranged on the width of plate slab direction, the 2nd of being staggered by the center line with this circular hole chimeric the 1st and, center line littler than the 1st shaft diameter and the 1st of bent axle constitutes, and the 2nd by described drive unit driven rotary.
The 2nd when rotation, crank-operated is carried out as the center in the 1st axle center with the 2nd, by chimeric circular hole, makes about the main body, seesaws.Thus, because slide block can be depressed metal die and metal die is moved forward, (slab flow direction) effect of also advancing because of bearing so slab can be depressed can be carried out the continuous action of depressing.The invention of technical scheme 37 is because be to be depressed by two sides up and down of metal die from slab, so can give bigger drafts.
In the invention of technical scheme 38, has the metal die that about slab, is provided with on the either party, up and down with the slide block of this metal die of swing, drive the drive unit of this slide block, described metal die is provided with being opposite to across slab, the support unit of supporting slab, described slide block has body and bent axle, the slide block body has the circular hole that central axis is arranged on the width of plate slab direction, bent axle by with this circular hole chimeric the 1st and littler than the 1st shaft diameter, the 2nd formation that center line and the 1st center line staggers, the 2nd by described drive unit driven rotary.
The invention of technical scheme 38 is that metal die is arranged on the either party up and down of slab, is provided with the support unit of clamping slab at the opposite side of metal die, the slab that is depressed with supporting.Reduce although compare drafts with the invention of technical scheme 37, the forward travel of the slab in depressing relatively, the frictional force of generation and support unit, structure has become simply, can reduce cost.
In the invention of technical scheme 39, be in the presser device of technical scheme 37 or 38 described thicknesss of slab, having the circular hole and the bent axle that are arranged on the described slide block is to be provided with along a plurality of row ground that are arranged into of slab flow direction, and each bent axle can produce the structure of the power of depressing.
By a plurality of circular holes and bent axle being arranged into a row setting, can make the metal die keeping parallelism at slab flow direction (direction of advance).In addition, be dispersed in several places owing to can will depress load, so can simplify the structure of each bent axle.
In the invention of technical scheme 40, be in the presser device of technical scheme 37 or 38 described thicknesss of slab, having the circular hole and the bent axle that are arranged on the described slide block is to be provided with along a plurality of row ground that are arranged into of slab flow direction, and bear loading moment by a bent axle, and other bent axles produce the structure of the power of depressing.
Accept the non-equilibrium moment of load by 1 bent axle, other bent axles only produce the power of depressing, and can make integral body become effective trigger squeeze.
In the invention of technical scheme 41, described slab is carried by pinch roll or roller-way, when being depressed by slide block, consistently carries slab with the pace of slide block.
By when slide block is depressed, consistently carry slab with the pace of slide block, and beyond it with suitable speed for example to carry slab with the corresponding to speed of follow up device, carry out can carrying out continuous conveying when appropriateness is depressed.
The invention of technical scheme 42 is that during thickness is depressed and in 1 circulation that constitutes during the common transporting velocity, the distance L that slab moves can be longer along the length L 1 of slab flow direction than metal die.
Because the displacement L of the slab of carrying in 1 circulation 1 is long in the length L 1 of slab flow direction unlike metal die, the following length that next time, circulation was pressed what with previous cycle in the length overlap joint depressed.Thus, can carry out depressing of thickness reliably.
For realizing above-mentioned the 3rd purpose, the invention of the technical scheme 43 that adopts provides a kind of presser device of thickness of slab, it is characterized in that, has the 1 pair of metal die that stands facing each other up and down and be provided with respect to slab, the pendulous device that be arranged on each metal die, metal die is seesawed towards slab, this pendulous device has slide block, this slide block have oblique or perpendicular to the setting of slab feeding direction, be spaced from each other at interval 1 pair of circular hole of L; With the eccentric shaft that in described circular hole, rotates, this eccentric shaft by the center line A with circular hole be the 1st of in circular hole, rotating in center and with the 1st center line B that separates eccentric amount e be that rotation the 2nd of driving in center constitutes.
Adopt this structure, because 2 eccentric shafts that rotate are oblique or perpendicular to the slab feeding direction, so compare with the occasion that the line direction be arranged in parallel, can shorten the necessary length of line direction in 1 pair of circular hole of slide block.Particularly, during oblique the setting, the power of the depressing equalization that acts on 2 eccentric shafts can be made, the effect of impartial load can be realized having on the shortening of line direction length and each eccentric shaft simultaneously.In addition, when being provided with, can making and on inboard eccentric shaft, set bigger load, and can make the eccentric shaft miniaturization in the outside perpendicular to the slab feeding direction.
In addition, adopt the invention of technical scheme 44, a kind of pressing plate method of thickness of slab is provided, it is characterized in that having 1 pair of metal die of the following face-off setting of clamping slab and the pendulous device that is arranged on each metal die, metal die is seesawed towards slab on the ground, depress by metal die during the compacting of slab, the feed rate of slab and metal die is synchronous, leaves at slab during the non-compacting of metal die, can send slab under the certain speed of acquisition for the circulation rate of regulation.
Adopt this method, can consistently carry, can carry out continued operation completely with the slab transporting velocity of front and back.
4. the 4th purpose of the present invention provides and a kind ofly can depress at a high speed and depress greatly, the necessary power of depressing is few, drive that power is little, the presser device and the method for the thickness of slab of press device integral miniaturization.
For realizing above-mentioned the 4th purpose, in the invention of technical scheme 45, will be pressed material and depress the back moving direction as length direction, the metal die of the same length L of N is set in the longitudinal direction, the interval of each metal die as NL, is depressed.
Replace used length direction length be NL metal die be, be that metal die N of L series connection is provided with length, each metal die be spaced apart NL.In case each metal die depress end, pressed material movable length NL only along its length.Thus, can depress the quilt pressure material that length is NL.The size of the inertia force that produces when moving back and forth slab at a high speed is by the GD2 decision of the parts that moving back and forth.When the value of GD2 is reciprocating 1, be divided into N, add up to GD2 separately to compare, the aggregate value after cutting apart diminishes.Be divided into thus one by one,, can realize high speed because of inertia force is little.In addition, partitioning scheme has reduced driving power.
In the invention of technical scheme 46, the direction vertical with described length direction is as width, and the length of the length direction of described metal die is shorter than the length of width.
Since by before pressing material to depress and the volume after depressing roughly the same, the volume of pressure part extends with width along its length.Yet metal die is long at length direction, the elongation difficulty of length direction, be difficult to depress greatly, but, also can extend well at length direction because the length of metal die length direction is shorter than the length of width, can depress greatly, also can alleviate the driving power of depressing pressure setting.
In the invention of technical scheme 47, make described metal die N to depress simultaneously.
By depressing simultaneously with N metal die, can shorten the time of depressing, also can carry out high velocity compacted.
In the invention of technical scheme 48, at least one and other metal dies of described metal die are depressed if having time poorly.
By making a plurality of metal dies be divided into several one group (also can be group one by one), depress with staggering the time, can make to drive the power minimizing.
In addition, for realizing above-mentioned the 4th purpose, the invention of technical scheme 49 is, on the stocking flow direction, be provided with N as K=1 towards K=N ground, downstream series connection with upstream side and depress the trigger squeeze K of stocking with the stocking length L, depress in proper order to K=1 ground by K=N, then, stocking is sent to be combined length NL to the mill length of each trigger squeeze after, the ground order is depressed from K=N to K=1, above-mentioned repeatedly action is to be rolled.
The shortening of the stocking mill length of depressing by each trigger squeeze from K=1 to K=N has reduced the power of depressing of each trigger squeeze, makes the trigger squeeze device miniaturization.
In the invention of technical scheme 50, on the stocking flow direction, towards the series connection of K=N ground, downstream N trigger squeeze K that depresses stocking with the stocking length L is set as K=1 with upstream side, each trigger squeeze is depressed Δ t, the thickness that the K trigger squeeze is depressed from the K-1 trigger squeeze is depressed Δ t, stocking is sent mill length L to after being depressed to K=N ground order by trigger squeeze K=1, and above-mentioned repeatedly action is to be rolled.
Add up to N Δ t by the same position of stocking being depressed each trigger squeeze from K=1 to K=N Δ t that respectively does for oneself, though each trigger squeeze to depress power less, also can make integral body obtain big drafts.Thus, because of the capacity of each trigger squeeze is little, can make the press device miniaturization.
5. the 5th purpose of the present invention provides a kind of presser device and method of thickness of slab, can carry out the rolling action of depressing action and downstream milling train of trigger squeeze simultaneously, the conveying device of stocking is little with the capacity of depressing with pendulous device, be easy to and downstream equipment serialization, even the translational speed of the metal die during trigger squeeze is depressed is different with the transporting velocity of conveying device, can not damage stocking yet, can not damage device, the material of being pressed after the compacting can be not crooked, can not apply excessive loads on conveying device yet.
For realizing above-mentioned the 5th purpose, in the invention of technical scheme 51, have be arranged between trigger squeeze and the milling train, leave make be provided with by the crooked required interval of stocking, and adjust by the speed of stocking transporting velocity and adjust roller, be arranged on this speed adjust on roller or near it, metering pass through by stocking by length pass through the length tester, adjust the control device of two speed adjustment roller when controlling described trigger squeeze action by described instrumentation value by the length tester.
Has the bending of being pressed the material speed difference that absorbs by between the two between trigger squeeze and the milling train, obtain the length difference that passes through in the length tester of passing through of the pressing plate pusher side at crooked two ends and the setting of milling train side, control the action that two speed are adjusted roller or trigger squeeze with control device, set the scope of regulation when absorbing this by length by bending.Thus, depressing with the rolling of milling train of trigger squeeze can be carried out simultaneously.In addition, even trigger squeeze walking trigger squeeze or the trigger squeeze that begins the mode that stops also can move simultaneously.
In the invention of technical scheme 52, described control device is during the integral multiple of depressing circulation of trigger squeeze, obtain two by tester the instrumentation value pass through length difference, any of the transporting velocity of depressing period, each speed adjustment roller of adjustment trigger squeeze or their combination will be controlled to by length difference and be close to 0.
The length difference that passes through during the integral multiple of depressing circulation of trigger squeeze is absorbed by bending, depress the combination of any or they of the increase and decrease of the increase and decrease of period, transporting velocity that each speed is adjusted roller with timed unit by trigger squeeze in unit interval, will become to be close to 0 by length adjustment.
In the invention of technical scheme 53, be provided with the described speed of instrumentation and adjust between the roller by the crooked tester of stocking bending, by this instrumentation value, carry out the control of described control device, make bending be in prescribed limit.
Owing to adopt above-mentioned formation within the limits prescribed, can prevent crooked too small uncomfortable power that trigger squeeze or milling train are produced and the elongation that is produced by the stocking deadweight that prevents the crooked ambassador of the mistake condition of high temperature etc. with bending control.
In the invention of technical scheme 54, described speed adjust be provided with between the roller liftable by the stocking conveying device, by the front end of stocking or rear end by the time, adjust the transporting flat of roller with speed and roughly carry by stocking on ground, isoplanar.
Generation by be provided with in the interval of stocking bending liftably carry by the stocking roller by the stocking conveying device, when bending, drop to the below, by the front end of stocking or rear end by the time, the transporting flat of adjusting roller with speed is in roughly the same plane.Thus, also can be by the front end of stocking or rear end smoothly by between crooked generating region.
For realizing above-mentioned the 5th purpose, in the invention of technical scheme 55, from depressing with metal die up and down the drawing method of the crank-type trigger squeeze that is transferred stocking, during depressing, stocking and metal die move with same speed, when not depressing, adjust the feed rate of stocking, so that in 1 circulation, move stocking with the distance L of stipulating.
Because from depress the stocking of conveying up and down with metal die, in depressing, with the speed conveying stocking same with metal die, when not depressing, regulate the speed, the displacement that makes 1 circulation is L, so can carry stocking with circulating unit constant speed ground.In addition, the variation of transporting velocity also reduces significantly than beginning to stop mode in the circulation, and vibration also reduces significantly than slide block mode.
In the invention of technical scheme 56, have and be arranged on stocking metal die up and down, depress the crank device of each metal die, with the conveying device of carrying stocking, during metal die was depressed stocking, conveying device made metal die and stocking move with same speed at crank device, when not depressing, adjust the feed rate of stocking, so that move the distance L of regulation in 1 circulation, this distance is in depressing in the length L 0 of metal die flow direction.
The top crank device is depressed stocking by metal die around bottom dead centre, the lower crank device is depressed stocking by metal die around top dead-centre.Metal die is depressed during the stocking, and conveying device and metal die are with carry stocking fastly.1 cycle period of crank device is because the distance L that conveying device moves stocking is in metal die the depressing in the length L 0 of flow direction, so stocking time can be depressed length L.By action like this, also little because of the transporting velocity variation of stocking, do not need jumbo conveying device.And,, do not need jumbo pendulous device owing to be not structure consistent with stocking speed, the heavy weight slide block of swing.In addition, because stocking roughly is to carry continuously, be easy to and follow-up rolling device serialization.
In the invention of technical scheme 57, depressing with metal die the drawing method of the crank-type trigger squeeze that is transferred stocking from the width both sides, during depressing, metal die and stocking move with same speed, when not depressing, adjust the feed rate of stocking, so that make stocking in 1 circulation move the distance L of regulation.
Owing to depress the stocking of conveying with metal die from the width both sides, in depressing,, when not depressing, to regulate the speed with the speed conveying stocking same with metal die, the displacement that makes 1 circulation is L, so can carry stocking with circulating unit constant speed ground.In addition, the variation of transporting velocity also reduces significantly than beginning to stop mode in the circulation, and vibration also reduces significantly than slide block mode.
In the invention of technical scheme 58, has the metal die that is arranged on width of rolling stock direction both sides, broad ways is depressed the crank device of each metal die, with the conveying device of carrying stocking, during the metal die broad ways was depressed stocking, conveying device made metal die and stocking move with same speed at crank device, when not depressing, adjust the feed rate of stocking, so that move the distance L of regulation in 1 circulation, this distance L is in depressing in the length L 0 of metal die flow direction.
The invention of technical scheme 58 is that the invention with technical scheme 56 is used for width and depresses, and the crank device that is arranged on width of rolling stock direction both sides is depressed stocking with metal die at width around bottom dead centre.Metal die is depressed during the stocking, and conveying device and metal die are to carry stocking with speed.Because 1 cycle period of crank device, the distance L a that conveying device moves stocking is in metal die the depressing in the length L a0 of flow direction, so stocking can inferiorly in proper order be depressed length L a.By action like this, because the variation of stocking transporting velocity and little does not need jumbo conveying device.And, owing to be not structure consistent with stocking speed, the big weight slide block of swing, so do not need jumbo pendulous device.In addition, because stocking is roughly carried continuously, be easy to serialization with follow-up rolling device.
In the invention of technical scheme 59, to be provided with in the downstream of the described conveying device of technical scheme 56 or 58 and to make stocking be ring-type, to adjust the kink of length.
The transporting velocity of stocking changes in 1 circulation of crank device.For this reason, by kink is set, can be continuous smoothly with follow-up rolling device etc.
For realizing above-mentioned the 5th purpose, in the invention of technical scheme 60, carry simultaneously by metal die depressing the drawing method with pinch roll from the crank-type trigger squeeze of depressing stocking up and down, during depressing, pinch roll is rotating the conveying stocking with the peripheral speed identical with aggregate velocity, described aggregate velocity is the speed with the elongation speed plus-minus metal die horizontal direction of stocking, when not depressing trigger squeeze, adjust the feed rate of stocking, so that in 1 circulation, move in the distance L of regulation, make the pressure of depressing when not depressing during the force rate trigger squeeze is depressed of pinch roll little.
Because from depress the stocking of conveying up and down with metal die, in depressing, with the peripheral speed identical rotation and carry stocking down with the aggregate velocity of the horizontal direction speed of stocking hoisting velocity plus-minus metal die, when not depressing, regulate the speed and the translational speed of 1 circulation is set at L, can carry stocking with circulating unit constant speed ground.In addition, because the pressure during the depressing the force rate trigger squeeze and do not depress in depressing of pinch roll is little, so also can prevent to damage stocking even the transporting velocity of aggregate velocity and pinch roll is different.And the transporting velocity in the circulation changes and also reduces significantly than beginning to stop mode, and vibration also reduces significantly than slide block mode.
In the invention of technical scheme 61, have and be arranged on stocking metal die up and down, depress the crank device of each metal die, with the pinch roll of carrying stocking, at crank device during metal die is depressed stocking, pinch roll is rotating the conveying stocking with the peripheral speed identical with the aggregate velocity of the elongation speed of stocking plus-minus metal die horizontal direction speed, when not depressing, adjust the feed rate of stocking, so that in 1 circulation, move the distance L of regulation, this distance L is set at depressing in the length L 0 of metal die flow direction, and simultaneously, the pressure of depressing when not depressing during the force rate trigger squeeze is depressed of pinch roll is little.
The top crank device is depressed stocking with metal die around bottom dead centre, the lower crank device is depressed stocking with metal die around top dead-centre.Metal die is depressed during the stocking, pinch roll with the peripheral speed rotation identical with the aggregate velocity of the hoisting velocity of stocking plus-minus metal die speed, carry stocking.1 cycle period of crank device is in metal die the depressing in the length L 0 of flow direction because pinch roll moves the distance L of stocking, and stocking can inferiorly in proper order be depressed length L.And,,, also can prevent to damage stocking even aggregate velocity is different with the transporting velocity of pinch roll because the pressure during the depressing the force rate trigger squeeze and do not depress in depressing of pinch roll is little.Because so the stocking transporting velocity of action changes and is little, so do not need jumbo conveying device.And owing to be not structure consistent with stocking speed, that swing the conveying device of big weight slide block, so do not need jumbo pendulous device.And,, be easy to serialization with follow-up rolling device because stocking is roughly carried continuously.
In the invention of technical scheme 62, depress beginning by trigger squeeze and the time rise, before or after the stipulated time t, the power of depressing of described pinch roll is reduced.
Because when beginning by depressing from trigger squeeze, before the stipulated time t, make the power of depressing of pinch roll set lessly, pinch roll reduces the constraint of stocking, the stocking so metal die can be nipped really.Time t is the engaging-in necessary time.In addition at the appointed time behind the t, the power of depressing of pinch roll hour, the metal die stocking of can positively nipping.
In the invention of technical scheme 63, to depress load at trigger squeeze and be in the moment more than the setting, described pinch roll just makes the power of depressing reduce.
Pinch roll is depressed to load to be in more than the setting up to trigger squeeze and is just depressed stocking under high pressure, and really stocking is imported trigger squeeze, afterwards, the power of depressing is diminished.
For realizing above-mentioned the 5th purpose, in the invention of technical scheme 64, has the upstream side that is arranged on trigger squeeze, deliver into the liftable input side conveying device of being pressed material in the trigger squeeze, with be arranged on the trigger squeeze downstream, carry the liftable outlet side conveying device of being pressed material after suppressing, described input side conveying device is according to the thickness information of being moved into of being pressed material, set delivery head with mid-depth as heart in the compacting, described outlet side conveying device is set delivery head with mid-depth as heart in the compacting according to the thickness information of being pressed material after suppressing.
From depressing the trigger squeeze that is transferred stocking with metal die up and down, the center line of two metal dies is set for and is in certain height when depressing, and the line by this height is called the trigger squeeze center.Move into and handled the means instrumentation by the thickness of stocking by upstream side in the trigger squeeze, make this mid-depth and trigger squeeze center consistently set the delivery head of input side conveying device.And, depress the back because of trigger squeeze and be divided into by the thickness of stocking and depress planned value and measured value, thereby the height of consistently being set the outlet side conveying device by stocking mid-depth and trigger squeeze center after will depressing.Thus, not bent by stocking after depressing can not damaged the outlet side conveying device yet.
In the invention of technical scheme 65, have the upstream side that is arranged on the trigger squeeze that pushes between lower mold, the liftable input side conveying device of carrying the quilt pressure material of moving in the trigger squeeze, with the liftable outlet side conveying device of being pressed material that is arranged on after downstream, the conveying of carrying trigger squeeze are suppressed, make when being pressed material not pass through tyrannously, lower mold in the unlatching makes the delivery head of described input side conveying device and described outlet side conveying device identical and set upper surface height than the lower mold of opening for.
Sometimes have and do not suppress and only by the pressure setting occasion, maybe will take place problem by the anti-occasion of sending of stocking.At this moment,, set identically with the delivery head of outlet side conveying device the input side conveying device, and the metal die upper surface of opening is higher, can make by stocking and pass through in positive and negative two directions by opening lower mold.
In the invention of technical scheme 66, be arranged on trigger squeeze upstream side and downstream, can adjust in the carrying method of the conveying device of being pressed the material delivery head, material was pressed in conveying when two conveyors was pressed material mid-depth height in keeping compacting.
By make in the compacting by the mid-depth height of stocking and conveying by the mid-depth height of stocking with high, the conveying device that is arranged on trigger squeeze upstream side and downstream can not make by the stocking bending etc., can not give unnecessary load for conveying device yet.
In the invention of technical scheme 67, be arranged on trigger squeeze upstream side and downstream, can adjusting in the carrying method of the conveying device of being pressed the material delivery head, when being pressed material to pass through in the trigger squeeze, open the trigger squeeze metal die up and down, it is not contacted is pressed material, two conveyors to carry under sustained height by the pressure material.
Sometimes have do not suppress and only the occasion by pressure setting and will take place problem by the anti-occasion of sending of stocking.At this moment, open pressed metal mould up and down, make it not contacting metal mould, two conveyors is carried by stocking under equal height.
More clear in the explanation of carrying out with reference to accompanying drawing that other purposes of the present invention and favorable characteristics will be below.
Description of drawings
Fig. 1 shows the schematic diagram of hot rolling with milling train one example.
Fig. 2 shows the material that is formed that uses metal die is depressed the example that is shaped in the thickness of slab direction schematic diagram.
Fig. 3 shows the schematic diagram of presser device one example of walking finishing thickness of slab.
Fig. 4 is the pie graph of means under the high pressure in the past.
Fig. 5 shows the view of trigger squeeze one example of in the past walking.
Fig. 6 shows the view of the long in the past metal die press plate mechanism of use precedent.
Fig. 7 shows the view of Fig. 6 device action.
Fig. 8 shows hot rolling and depresses view with thickness.
Fig. 9 shows the overall diagram of presser device the 1st embodiment of the thickness of slab of looking from pipeline one side of the present invention.
Figure 10 shows the schematic diagram of the displacement and metal die self swing of the relative pipeline of metal die shown in Figure 9.
Figure 11 shows the schematic diagram of the displacement and metal die self swing of the relative pipeline of metal die shown in Figure 9.
Figure 12 shows the schematic diagram of the displacement and metal die self swing of the relative pipeline of metal die shown in Figure 9.
Figure 13 shows the schematic diagram of the displacement and metal die self swing of the relative pipeline of metal die shown in Figure 9.
Figure 14 is the overall diagram of the 2nd embodiment of the presser device of the thickness of slab of the present invention looked from pipeline one side.
Figure 15 is the overall diagram of the 3rd embodiment of the presser device of the thickness of slab of the present invention looked from pipeline one side.
Figure 16 is the overall diagram of the 4th embodiment of the presser device of the thickness of slab of the present invention looked from pipeline one side.
Figure 17 shows the side view of the 5th embodiment of the presser device of thickness of slab of the present invention.
Figure 18 shows and does not depress the side view that is shaped with rise and fall roller roller position during material of being formed of Figure 17 associated.
Figure 19 shows the side view of the 6th embodiment of the presser device of thickness of slab of the present invention.
Figure 20 shows and does not depress the side view that is shaped with rise and fall roller roller position during material of being formed of Figure 19 associated.
Figure 21 shows the 7th embodiment of presser device of the thickness of slab of looking from pipeline one side of the present invention, the upstream side metal die deviate from pipeline most and the downstream metal die near the schematic diagram of pipeline state.
Figure 22 shows the 7th embodiment of presser device of the thickness of slab of looking from pipeline one side of the present invention, and the downstream metal die deviates from the schematic diagram of pipeline state to the upstream side metal die near pipeline.
Figure 23 shows the 7th embodiment of presser device of the thickness of slab of looking from pipeline one side of the present invention, and the downstream metal die deviates from the schematic diagram of pipeline state most to the upstream side metal die near pipeline.
Figure 24 shows the 7th embodiment of presser device of the thickness of slab of looking from pipeline one side of the present invention, the upstream side metal die deviate from pipeline and the downstream metal die near the schematic diagram of pipeline state.
Figure 25 shows the schematic diagram of slide block travel mechanism state from Figure 21-Figure 24 that pipeline one side is looked.
Figure 26 shows the side view of the 8th embodiment of the presser device of thickness of slab of the present invention.
Figure 27 is the vertical view with Figure 26 associated.
Figure 28 is the cutaway view of the cylinder body mounting portion of flipper guide among Figure 26.
Figure 29 is the cutaway view of the rigid roller supporting part of flipper guide among Figure 26.
Figure 30 is the pie graph of rolling equipment of presser device with thickness of slab of the present invention the 9th embodiment.
Figure 31 is the front view of presser device of the thickness of slab of Figure 30.
Figure 32 is the cutaway view of A-A line among Figure 31.
Figure 33 shows the ideograph of metal die track.
Figure 34 is the up and down plan of transposition of metal die with respect to the driving shaft rotational angle theta.
Figure 35 is the pie graph of rolling equipment of presser device with thickness of slab of the present invention the 10th embodiment.
Figure 36 is the front view of presser device of the thickness of slab of Figure 35.
Figure 37 is the cutaway view of A-A line among Figure 36.
Figure 38 shows the ideograph of metal die track.
Figure 39 shows the ideograph of the pressing plate method of thickness of slab of the present invention.
Figure 40 shows the pie graph of rolling equipment of the presser device of the thickness of slab with the present invention the 11st embodiment.
Figure 41 is the front view of presser device of the thickness of slab of Figure 40.
Figure 42 is the cutaway view of A-A line among Figure 41.
Figure 43 shows the ideograph of metal die track.
Figure 44 is the up and down plan of transposition of metal die with respect to the rotational angle theta of synchronous eccentric shaft.
Figure 45 is the pie graph of the present invention the 12nd embodiment.
Figure 46 is the cutaway view of X-X line among Figure 45.
Figure 47 shows the view of 1 do action of slide block.
Figure 48 shows slide block and by the view of 1 do action of stocking.
Figure 49 is the pie graph of the present invention the 13rd embodiment.
Figure 50 is the cutaway view of Y-Y line among Figure 49.
Figure 51 shows the ideograph of metal die track.
Figure 52 shows the pie graph of the present invention the 14th embodiment.
Figure 53 is the cutaway view of X-X line among Figure 52.
Figure 54 shows the view of slide block concrete structure.
Figure 55 shows the view of 1 do action of slide block.
Figure 56 shows the view of translational speed in 1 circulation of slide block.
Figure 57 shows the view of slide block and 1 do action of slab.
Figure 58 shows the pie graph of the present invention the 15th embodiment.
Figure 59 is the cutaway view of X-X line among Fig. 58.
Figure 60 is the cutaway view of Y-Y line among Figure 58.
Figure 61 shows the pie graph of the present invention the 16th embodiment.
Figure 62 is the cutaway view of X-X line among Figure 61.
Figure 63 shows the pie graph of the present invention the 17th embodiment.
Figure 64 shows the pie graph of the present invention the 18th embodiment.
Figure 65 shows the view of 1 do action of slide block.
Figure 66 shows the view of translational speed in 1 circulation of slab.
Figure 67 is the pie graph of the present invention the 19th embodiment.
Figure 68 shows the action of the 19th embodiment, and the view when depressing simultaneously with each metal die is shown.
Figure 69 shows the action of the 19th embodiment, and the view when depressing in proper order with each metal die is shown.
Figure 70 is the pie graph of the present invention the 20th embodiment.
Figure 71 shows the action of the 20th embodiment, and the view when depressing simultaneously with each metal die is shown.
Figure 72 shows the side view of the present invention the 21st embodiment.
Figure 73 is the action specification figure of the 21st embodiment.
Figure 74 is the action specification figure of the 22nd embodiment, and the state diagram when the stocking front end being shown moving to metal die 1201 and metal die 1202.
Figure 75 is the action specification figure of the 22nd embodiment, and the state diagram when the stocking front end being shown moving to metal die 1202 and metal die 1203.
Figure 76 is the action specification figure of the 22nd embodiment, the state diagram when the stocking front end being shown moving to metal die 1204.
Figure 77 is the pie graph of the present invention the 23rd embodiment.
Figure 78 show the 23rd embodiment by the stocking hodograph, (A) walking press outlet side is shown by the transporting velocity of stocking, the transporting velocity of milling train input side (B) is shown.
Figure 79 is the pie graph of the present invention the 24th embodiment.
Figure 80 show the 24th embodiment by the speed of stocking, (A) illustrate walking press outlet side by the transporting velocity of stocking, (B) transporting velocity of milling train input side is shown.
Figure 81 is the pie graph of the present invention the 25th embodiment.
Figure 82 shows the crankangle θ and the view of depressing scope of crank device.
Figure 83 is the view that launches Figure 82 with crankangle θ.
Figure 84 shows metal die and moves back and forth hodograph.
Figure 85 shows the velocity profile of conveying device.
Figure 86 shows the pie graph of the present invention the 26th embodiment.
Figure 87 shows the pie graph of the present invention the 27th embodiment.
Figure 88 shows the pie graph of the present invention the 28th embodiment.
Figure 89 shows the view of 1 do action of press.
Figure 90 shows the crankangle θ and the view of depressing scope of crank device.
Figure 91 shows the view of the 28th embodiment action.
Figure 92 shows the pie graph of the present invention the 29th embodiment.
Figure 93 shows the pie graph of the present invention the 30th embodiment.
Figure 94 shows the pie graph of the present invention the 31st embodiment.
Figure 95 shows the view of 1 do action of press.
Figure 96 shows the pie graph of the present invention the 32nd embodiment.
The specific embodiment
Below, embodiments of the invention are described with reference to the accompanying drawings.
(the 1st embodiment)
Fig. 9-Figure 13 shows the 1st embodiment of the presser device of thickness of slab of the present invention, the presser device of this thickness of slab has: make the tabular material 1 that is formed uprightly be arranged at support 101 on the assigned position of pipeline S by middle body ground, extend and have an eccentric part 102a along the plate width direction of the material 1 that is formed, the upstream side eccentric shaft 103a of 102b, 103b, along with this upstream side eccentric shaft 103a, the identical direction of 103b is extended and is had an eccentric part 104a, the downstream eccentric shaft 105a of 104b, 105b, the upstream side connecting rod 106a of Shen Zhaning up and down, 106b and downstream connecting rod 107a, 107b, metal die 108a is housed, the mould received block 109a of 108b, 109b, move forward and backward the 121a of mechanism, 121b with metal die.
Upstream side eccentric shaft 103a, 103b is configured in the inside of support 101 in the mode of opposed clamping pipeline S up and down, and the non-eccentricity part 110a at axle two ends, the 110b axle is bearing in the upstream side axle box (not shown) of installing in the support 101.
Downstream eccentric shaft 105a, 105b is at upstream side eccentric shaft 103a, the pipeline downstream B side of 103b, the mode of pipeline S with opposed clamping up and down are configured in the inside of support 101, and the non-eccentricity part 111a at axle two ends, the 111b axle is bearing in the downstream axle box (not shown) of installing in the support 101.
Upstream side eccentric shaft 103a, 103b and downstream eccentric shaft 105a, the end of 105b is connected with the motor driving shaft (not shown) with gear-box through universal coupling, makes each eccentric shaft 103a, 103b, 105a, 105b rotates synchronously.
The structure of said gear case is: when motor action, as Figure 11-shown in Figure 15, two eccentric shaft 103a of pipeline S top, 105a is with respect to the eccentric part 102a of upstream side eccentric shaft 103a, under the eccentric part 104a of downstream eccentric shaft 105a advances 90 ° phase place, the counter rotation displacement, simultaneously, two eccentric shaft 103b of pipeline S below, 105b is with respect to the eccentric part 102b of upstream side eccentric shaft 103b, under the eccentric part 104b of downstream eccentric shaft 105b advances 90 ° phase place, clockwise direction rotation displacement, in addition, eccentric part 102a, 104a and eccentric part 102b, 104b are symmetrical arranged as center line with pipeline S.
Upstream side connecting rod 106a, the base end part of 106b is by bearing 112a, and the 112b axle is bearing in upstream side eccentric shaft 103a, and the eccentric part 102a of 103b is on the 102b.
Downstream connecting rod 107a, the base end part of 107b is by bearing 113a, and the 113b axle is bearing in downstream eccentric shaft 105a, and the eccentric part 104a of 105b is on the 104b.
Metal die received block 109a, 109b are configured in the inside of support 101 in the mode of opposed clamping pipeline S up and down.
At metal die received block 109a, the close pipeline upstream A side of 109b partly goes up the support 114a that is provided with, 114b, by the pin 115a that extends along the plate width direction approximate horizontal of the material 1 that is formed, 115b and bearing 116a, 116b, with aforementioned upstream side connecting rod 106a, the leading section of 106b connects.
In addition, at metal die received block 109a, the close pipeline downstream B side of 109b partly goes up the support 117a that is provided with, 117b, by pin 115a, 115b and parallel pin 118a, 118b and bearing 119a, 119b, with aforementioned downstream connecting rod 107a, the leading section of 107b connects.
By upstream side connecting rod 106a, 106b and downstream connecting rod 107a, 107b, along with aforementioned upstream side eccentric shaft 103a, the rotation of 103b, eccentric part 102a, the displacement of 102b, with along with downstream eccentric shaft 105a, the rotation of 105b, eccentric part 104a, the displacement of 104b is delivered to metal die received block 109a, 109b makes this metal die received block 109a, and swing edge joint in 109b limit is near, deviate from pipeline S.
Be contained in each metal die received block 109a, metal die 108a on the 109b, 108b and material 1 face-off that is formed of passing milling train along pipeline S, and look from pipeline S one side and to have the forming face 120a outstanding, that become the convex surface shape of circular arc towards pipeline S, 120b.
Metal die moves forward and backward the 121a of mechanism, 121b is fixed on metal die received block 109a by an end, the close pipeline downstream B side end of 109b, and towards the side-prominent arm 122a of pipeline downstream B, 122b, be fixed on the close pipeline downstream B side part of support 101, and have towards pipeline downstream B side, pipeline S deviates from the groove 123a of the oblique extension in ground, the guiding parts 124a of 123b relatively, 124b, with by pin 125a, the 125b axle is bearing in arm 122a, on the 122b leading section, and movably with guiding parts 124a, the groove 123a of 124b, the directive wheel 126a of 123b engaging, 126b constitutes.
Metal die moves forward and backward the 121a of mechanism, 121b, along with upstream side eccentric shaft 103a, 103b and downstream eccentric shaft 105a, the rotation of 105b, as described above, metal die received block 109a, swing edge joint in 109b limit is near, deviate from when the pipeline S, makes metal die received block 109a, and 109b does relatively reciprocating motion along pipeline S direction.
Below, with the upstream side eccentric shaft 103a of pipeline S top, downstream eccentric shaft 105a, upstream side connecting rod 106a, downstream connecting rod 107a, metal die 108a and metal die received block 109a are the action of the presser device of main explanation thickness of slab.
The top dead-centre of the eccentric part 104a of the eccentric part 102a of upstream side eccentric shaft 103a and downstream eccentric shaft 105a is decided to be 0 ° (360 °), counter-clockwise direction calibration two eccentric part 102a, the anglec of rotation of 104a, as shown in figure 12, as the anglec of rotation of eccentric part 102a is about 315 ° and the anglec of rotation of eccentric part 104a when being 45 ° of left and right sides, metal die 108a becomes the state that deviates from pipeline S most, and in addition, directive wheel 126a is positioned on the close pipeline downstream B side end of guiding parts 124a.
As from this state counter rotation two eccentric shaft 103a, during 105a, metal die 108a is near pipeline S.
At this moment, eccentric part 104a advances to than eccentric part 102a and also advances on 90 ° the phase place, reason is, partly in advance to close pipeline upstream A side part and near time the pipeline S, directive wheel 126a moves to the pipeline upstream A side of guiding parts 124a to the close pipeline downstream B side of metal die 108a.
As shown in figure 13, when the anglec of rotation of eccentric part 102a becomes 90 ° and eccentric part 104a and becomes 180 °, directive wheel 126a arrives guiding parts 124a and goes up near pipeline upstream A side end, and the forming face 120a of metal die 108a depresses the material 1 that is formed that passes milling train in pipeline S near the part of pipeline downstream B side.
Rotation by two eccentric shaft 103a, 105a, when the anglec of rotation that the anglec of rotation of eccentric part 102a surpasses 90 ° and eccentric part 104a surpasses 180 °, directive wheel 126a begin to guiding parts 124a towards pipeline downstream B side shifting, swing metal die 108a, make the forming face 120a of metal die 108a and be formed material 1 joining part, impel the shaping of depressing of the material 1 that is formed from the A side transition of B side direction pipeline upstream, pipeline downstream.
In addition, metal die 108a is to pipeline downstream B side shifting, and the material 1 that is formed that can not make material will depress shaping is sent to pipeline downstream B side with retreating.
As shown in figure 14, after the anglec of rotation that the anglec of rotation of eccentric part 102a becomes 135 ° and eccentric part 104a becomes 225 °, along with the swing of metal die 108a, the forming face 120a of this metal die 108a depresses the material 1 that is formed that is shaped near the part of pipeline upstream A side.
Again as shown in figure 15, after the anglec of rotation of eccentric part 102a became 180 ° and the anglec of rotation of eccentric part 104a and becomes 270 °, metal die 108a deviated from pipeline S.
In addition, the upstream side eccentric shaft 103b of pipeline S below, downstream eccentric shaft 105b, upstream side connecting rod 106b, downstream connecting rod 107b, metal die 108b and metal die received block 109b also carry out same action with the member of above-mentioned pipeline S top, from depressing the material 1 that is formed that is shaped up and down.
Like this, in the presser device of the thickness of slab of Fig. 9-shown in Figure 13, because by upstream side eccentric shaft 103a, 103b, downstream eccentric shaft 105a, 105b, upstream side connecting rod 106a, 106b, downstream connecting rod 107a, 107b is equipped with metal die 108a, the metal die received block 109a of 108b, the nearly pipeline S of 109b limit swing edge joint, make metal die 108a, 108b forming face 120a, 120b is transitted towards pipeline upstream A side with material 1 joining part that is formed from pipeline downstream B side, and forming face 120a towards the material 1 that is formed, the contact area of 120b diminishes, and can alleviate metal die 108a, and 108b depresses load.
Thereby, to each eccentric shaft 103a, 103b, 105a, 105b, each connecting rod 106a, 106b, 107a, the strength condition of the power transmission member of 107b etc. or support 101 is relaxed, and can make it miniaturization.
And, because of metal die 108a, the forming face 120a of 108b, when 120b contacts with the material 1 that is formed, move forward and backward the 121a of mechanism by metal die, 121b is with metal die received block 109a, 109b is to pipeline downstream B side shifting, and the material 1 that is formed that can not can make material will depress shaping is sent to pipeline downstream B side with retreating.
(the 2nd embodiment)
Figure 14 shows the 2nd example of embodiment of the presser device of thickness of slab of the present invention, and among the figure, the part that is marked with same-sign with Fig. 9-Figure 13 is represented same parts.
In the presser device of this thickness of slab, move forward and backward the 127a of mechanism with metal die, 127b replaces Fig. 9-metal die shown in Figure 13 to move forward and backward the 121a of mechanism, 121b.
Metal die moves forward and backward the 127a of mechanism, and 127b is by being fixed on metal die received block 109a, the support 128a on the close pipeline downstream B side end of 109b, 128b is fixed on the support 129a on the close pipeline downstream B side part of support 101,129b, by pin 131a, 131b makes piston rod 130a, and the front end axle of 130b is bearing in support 128a, and 128b is last and by pin 133a, 133b makes cylinder body 132a, the 132b axle is bearing in support 129a, the hydraulic cylinder 134a on the 129b, and 134b constitutes.
Even in the presser device of this thickness of slab, because as metal die 108a, the forming face 120a of 108b, when 120b does not contact with the material 1 that is formed, hydraulic pressure is applied to hydraulic cylinder 134a, the side liquid chamber of 134b, make metal die received block 109a, 109b and metal die 108a, 108b is to pipeline upstream A side shifting, and at metal die 108a, when the forming face 120a of 108b, 120b contacted with the material 1 that is formed, hydraulic pressure was applied to hydraulic cylinder 134a, 134b bar side liquid chamber, make metal die received block 109a, 109b and metal die 108a, 108b is to pipeline downstream B side shifting, also can be same with the presser device of thickness of slab among previous described Fig. 9-Figure 13, the material 1 that is formed that does not make material will depress shaping is sent to pipeline downstream B side with retreating.
In addition, also can use the driver of other stretch modes such as screw jack to replace hydraulic cylinder 134a, 134b.
(the 3rd embodiment)
Figure 15 shows the 3rd example of embodiment of the presser device of thickness of slab of the present invention, and among the figure, the part that is marked with same-sign with Fig. 9-Figure 13 is represented same parts.
In the presser device of this thickness of slab, move forward and backward the 135a of mechanism with metal die, 135b replaces Fig. 9-metal die shown in Figure 13 to move forward and backward the 121a of mechanism, 121b.
Metal die moves forward and backward the 135a of mechanism, and 135b is by being fixed on metal die received block 109a, the support 128a on the close pipeline downstream B side end of 109b, 128b; The close pipeline downstream B side that can be rotatably set in support 101 partly goes up, along the front and back action eccentric shaft 136a that the material 1 plate width direction approximate horizontal that is formed is extended, 136b; And one end sell 137a, the 137b axle is bearing in support 128a, action eccentric shaft 136a before and after the last and other end axle of 128b is bearing in, the eccentric part 138a of 136b, the front and back action link rod 139a on the 138b, 139b constitutes.
Even in the presser device of this thickness of slab, because as metal die 108a, the forming face 120a of 108b, when 120b does not contact with the material 1 that is formed, action eccentric shaft 136a before and after rotating, 136b, make metal die received block 109a, 109b and metal die 108a, 108b is to pipeline upstream A side shifting, and at metal die 108a, when the forming face 120a of 108b, 120b contact with the material 1 that is formed, action eccentric shaft 136a before and after rotating, 136b, make metal die received block 109a, 109b and metal die 108a, 108b is to pipeline downstream B side shifting, also can be same with the presser device of thickness of slab among previous described Fig. 9-Figure 13, the material 1 that is formed that does not make material will depress shaping is sent to pipeline downstream B side with retreating.
(the 4th embodiment)
Figure 16 shows the 4th example of embodiment of the presser device of thickness of slab of the present invention, and among the figure, the part that is marked with same-sign with Fig. 9-Figure 13 is represented same parts.
In the presser device of this thickness of slab, move forward and backward the 140a of mechanism with metal die, 140b replaces Fig. 9-metal die shown in Figure 13 to move forward and backward the 121a of mechanism, 121b.
Metal die moves forward and backward the 140a of mechanism, and 140b is by being fixed on metal die received block 109a, the support 128a of the close pipeline downstream B side end of 109b, 128b, front end is positioned at metal die received block 109a, and the reverse pumping line sending side of 109b and cardinal extremity are fixed on the support 141a on the assigned position of support 101,141b, one end is sold 142a, the 142b axle is bearing in support 128a, and 128b is last and the other end is sold 143a, and the 143b axle is bearing in support 141a, rod member 144a on the 141b, 144b constitutes.
With support 128a, 128b, 141a, the installation site of 141b, rod member 144a, between the pivot point of 144b the distance, with respect to support 128a, 128b, 141a, the rod member 144a of 141b, the pivot of 144b prop up set positions: along with each eccentric shaft 103a, 103b, 105a, metal die 108a is equipped with in the rotation of 105b, the metal die received block 109a of 108b, the presser device of the thickness of slab of 109b and Fig. 9-shown in Figure 13 roughly similarly moves.
In the presser device of this thickness of slab, also can be same with the presser device of the thickness of slab of previous described Fig. 9-shown in Figure 13, the material 1 that is formed that does not make material will depress shaping is sent to pipeline downstream B side with retreating.
As above-mentioned, adopt the presser device and the method thereof of thickness of slab of the present invention, can obtain following various useful effect.
(1) in technical scheme 1 described thickness of slab trigger squeeze method of the present invention, owing to will have respectively metal die to the outstanding curved forming face of male bend of pipeline, synchronously swinging up and down from the material that is formed on one side on one side near pipeline, make part that the material that is formed with forming face joins from the pipeline downstream to the transition of pipeline upstream side, thereby the forming face and the contact area of the material that is formed are diminished, alleviate the load of depressing to metal die.
(2) in the presser device of the arbitrary described thickness of slab of technical scheme 2-6 of the present invention, because the displacement of the mutually different eccentric part of phase place of upstream side eccentric shaft and downstream eccentric shaft is delivered to the metal die received block through upstream side connecting rod and downstream connecting rod, and make the metal die swing, thereby the part of joining with the material that is formed that makes the convex surface shape forming face from the pipeline downstream to the transition of pipeline upstream side, thereby the contact area of the forming face of metal die and the material that is formed is diminished, alleviate the load of depressing to metal die.
(3) in the presser device of the arbitrary described thickness of slab of technical scheme 2-6 of the present invention, owing to the load of depressing that has alleviated metal die, upstream side eccentric shaft, the downstream eccentric shaft, the upstream side connecting rod, the strength condition of downstream connecting rod etc. is relaxed, and can make it miniaturization.
(4) in the presser device of the arbitrary described thickness of slab of technical scheme 2-6 of the present invention, because when the forming face of metal die contacts with the material that is formed, move forward and backward mechanism by metal die, the metal die received block is moved, so the material that is formed that can not make material will depress shaping is sent to the pipeline downstream with retreating to the pipeline downstream.
(the 5th embodiment)
Figure 17 and Figure 18 show the 5th embodiment of the presser device of thickness of slab of the present invention.
The 207th, pressure setting body, this pressure setting body 207 be by support 208, top axle box 209, and bottom axle box 210, upper-lower rotating shaft 211a, 211b, upper and lower strut 212a, 212b, upper and lower strut supports case 213a, 213b and last lower mold 214a, 214b constitutes.
Support 208 has window portion 215, and this window portion is stood and is located at the both sides of the pipeline S width that makes material 1 lateral transfer that is formed and vertically stretching, extension.
But axle box 209 above-below directions in top embed the upper end of aforementioned window portion 215 slidably, by the adjustment bolt 216 that is arranged on support 208 tops and rotates by the drive unit (not shown), and the position of decision above-below direction.
But axle box 210 above-below directions in bottom embed the lower end of the window portion 215 that is arranged on aforementioned each support 208 slidably, by the adjustment bolt 216 that is arranged on support 208 bottoms and rotates by the drive unit (not shown), and the position of decision above-below direction.
Each rotating shaft 211a up and down, 211b has eccentric part 217 at its axis direction pars intermedia, and two ends are supported respectively by aforementioned top axle box 209 and bottom axle box 210, and particularly the one end connects with the drive unit (not shown) through universal coupling.
Each connecting rod 212a up and down, the cardinal extremity of 212b is embedded into each rotating shaft 211a outside rolling bearing 218, and on the eccentric part separately 217 of 211b, and each connecting rod 212a, the front end of 212b are through spherojoint (not shown) and metal die seat 219a, and 219b connects.
Metal die seat 219a, 219b be hinged on connecting rod 212a, the piston rod of the hydraulic cylinder 220 on the 212b connects, because the action of this hydraulic cylinder 220, can be to being contained in metal die seat 219a, the metal die 214a on the 219b, the angle of the relative pipeline S of 214b is adjusted.
Each link supports case 213a up and down, 213b, through roughly be embedded in central authorities the ball bearing (not shown) supporting aforementioned each connecting rod 212a, 212b middle part separately, but and above-below direction embed slidably in the aforementioned window portion 215.
Metal die 214a up and down, 214b has and metal die 14a shown in Figure 2, the side view that 14b is roughly the same, with up and down with the opposed mode of pipeline S, can be installed in aforementioned each metal die seat 219a respectively, on the 219b, along with rotating shaft 211a with freely loading and unloading, the rotation of 211b, through connecting rod 212a, 212b drives, can be synchronously approaching mutually, deviate from pipeline S.
The 221st, the upstream side roller-way, this upstream side roller-way 221 is by on the pipeline upstream A side that is arranged on pressure setting body 207, roughly along the horizontally extending fixed frame 222 of pipeline S, constitute with a plurality of upstream side roller rollers 223 that can be arranged on this fixed frame 222 with rotating freely, wherein, supporting to roller roller 223 approximate horizontal each metal die 214a that will pass pressure setting body 207, below the material 1 that is formed between the 214b, and separate the interval of regulation along the pipeline direction.
224 is the 1st rise and fall rollers, the 1st rise and fall roller 224 is by near the 1st lifting frame 225 that extends the pipeline downstream B side that liftably is arranged on pressure setting body 207 and along pipeline S approximate horizontal, constitute with a plurality of rise and fall roller rollers 226 that can be arranged on the 1st lifting frame 225 with rotating freely, wherein, roller roller 226 can support the metal die 214a from pressure setting body 207, below the material of sending between the 214b 1 that is formed, and separate the interval of regulation along the pipeline direction.
Aforementioned the 1st lifting frame 225 is by a plurality of guiding parts 228 on the assigned position that founds the floor 227 that is located at pipeline S below, constitute along these guiding parts 228 liftables frame body 229 that form, that have support, this frame body 229 is connected with the piston rod of hydraulic cylinder 230, wherein hydraulic cylinder 230 is that length direction along frame body 229 is with the predetermined distance setting and be hinged on the floor 227, action by this hydraulic cylinder 230, energy approximate horizontal state ground lifting frame body 229 is adjusted the height of each rise and fall roller roller 226 with respect to pipeline S.
231 is the 2nd rise and fall rollers, the 2nd rise and fall roller 231 is by pipeline downstream B side that liftably is arranged on aforementioned the 1st rise and fall roller 224 and the 2nd lifting frame 232 that extends along pipeline S, constitute with a plurality of rise and fall roller rollers 233 that can be arranged on the 2nd lifting frame 232 with rotating freely, wherein, roller roller 233 can support the material 1 that is formed sent from the 1st rise and fall roller 224 below, and separate the interval of regulation along the pipeline direction.
Aforementioned the 2nd lifting frame 232 is by a plurality of guiding parts 234 on the assigned position that founds the floor 227 that is located at pipeline S below, the support 235 that liftably forms along this guiding parts 234, constitute with the frame body 236 that is hinged on these support 235 tops, this frame body 236 is connected with the piston rod of a plurality of hydraulic cylinders 237, wherein hydraulic cylinder 237 along the length direction of frame body 236 with the predetermined distance setting and be hinged on the floor 227.
Aforesaid each hydraulic cylinder 237 can move respectively, by each hydraulic cylinder 237 is moved respectively, lifting the 2nd lifting frame 232 can make the height of pipeline S upstream-side-end of the 2nd rise and fall roller 231 and height pipeline S end of downstream side consistent with the height of the 1st rise and fall roller 224 remain on slightly than on the high position of the height of downstream described later roller-way 238.
In addition, aforesaid the 1st rise and fall roller 224 and the 2nd rise and fall roller 231 under the effect of separately hydraulic cylinder 230,237, also can drop to aforementioned upstream side roller-way 221 roughly the same height of level positions on.
The 238th, the downstream roller-way, this downstream roller-way 238 is by the fixed frame 239 that extends on the pipeline downstream B side that is arranged on the 2nd rise and fall roller 231, along pipeline S approximate horizontal, constitute with a plurality of downstreams roller roller 240 that can be arranged on this fixed frame 239 with rotating freely, wherein, roller roller 240 and aforesaid upstream side roller-way 221 roughly sustained height ground, horizontal support the material 1 that is formed sent from the 2nd rise and fall roller 231 below, and separate the interval of regulation along the pipeline direction.
Below, the action of the presser device of Figure 17 and thickness of slab shown in Figure 180 is illustrated.
The material 1 that is formed of strip is by metal die 214a, 214b is when the thickness of slab direction is depressed shaping, at first, by the drive unit (not shown), the bolt of adjustment up and down 216 of rotation pressure setting body 207, along support 208, to move or move down on top axle box 209 and the bottom axle box 210, and through being supported on the rotating shaft 211a in each axle box 209,210,211b, connecting rod 212a, 212b and metal die seat 219a, 219b makes metal die 214a, 214b is approaching or deviate from the pipeline S of the material 1 that is formed, to set the interval between metal die 214a and the metal die 214b.
And, as shown in figure 17, by hydraulic cylinder 230 actions, lifting the 1st lifting frame 225 that makes near the 1st rise and fall roller 224 the pipeline downstream B side that is arranged on pressure setting body 207, the upper-lower position of the 1st rise and fall roller 224 is set at makes from metal die 214a, 214b sends, and the following of material 1 that be formed after depressing joins with each rise and fall roller roller 226, and can support to approximate horizontal the material 1 that is formed.
In addition, hydraulic cylinder 237 actions of the 2nd rise and fall roller 231 by making the pipeline downstream B side that is arranged on the 1st rise and fall roller 224, lifting the 2nd lifting frame 232, the position of setting the above-below direction of the 2nd rise and fall roller 231 is, aforesaid be formed material 1 from the height and position of the 1st rise and fall roller 224 downstream side roller-way 238 gently descend.
Afterwards, make the drive unit (not shown) running of pressure setting body 207, rotation rotating shaft 211a, 211b, make lower mold 214a, 214b is continuously near deviating from the pipeline S of the material 1 that is formed, simultaneously, the material 1 that is formed is loaded on the upstream side roller-way 221 from pipeline upstream A side and also moves, pass aforementioned metal mould 214a, between the 214b, by hydraulic cylinder 220a, the 220b limit suitably changes metal die 214a, the angle of 214b, limit be by metal die 214a, and 214b depresses the upper and lower surface of the material 1 that is formed that moving simultaneously, thickness by the material 1 that carries out such action repeatedly, make being formed reduces the size that is configured as regulation as shown in Figure 2.
Metal die 214a by pressure setting body 207, the material 1 that is formed that 214b is shaped moves on the 1st rise and fall roller 224 and moves, import the 2nd rise and fall roller 231, and move to smoothly on the downstream roller-way 238, the material 1 that is formed is carried to pipeline downstream B side.
Like this, in the presser device of Figure 17 and thickness of slab shown in Figure 180, owing to a plurality of rise and fall roller rollers 226 are set in the pipeline downstream of pressure setting body 207 B side, wherein roller roller 226 can with from metal die 214a, the consistently lifting of lower position of the material 1 that is formed behind the plate compression attenuate that 214b sends, and a plurality of rise and fall roller rollers 233 are set in the downstream of this rise and fall roller roller 226 B side, wherein, the height of roller roller 233 can be set at, make aforementioned be formed material 1 from the height and position of rise and fall roller roller 226 downstream side roller roller 240 slowly descend, thereby as metal die 214a by pressure setting body 207, when the fore-end of the material 1 that is formed after 214b depresses hangs down, the fore-end of material 1 of can preventing to be formed is suspended on the downstream roller roller 240 that pipeline S downstream B side is provided with, prevent downstream roller roller 240 and the material 1 both sides damage that is formed with preventing trouble before it happens, can depress shaping effectively and can reliably the material 1 that is formed be transported to downstream B side along the thickness of slab direction of the material 1 that is formed.
Be formed material 1 not by metal die 214a at strip, when 214b depresses shaping in the thickness of slab direction, as shown in figure 18, set the position of the 1st rise and fall roller 224 and the 2nd rise and fall roller 231.
At first, the bolt of adjustment up and down 216 by drive unit (not shown) rotation pressure setting body 207, make top axle box 209 along moving on the support 208, and bottom axle box 210 is moved down, through being supported on each axle box 209, rotating shaft 211a in 210,211b, connecting rod 212a, 212b and metal die seat 219a, 219b, make metal die 214a, 214b deviates from the pipeline S of the material 1 that is formed, the drive unit (not shown) of running pressure setting body 207, make rotating shaft 211a, 211b rotation, with each metal die 214a, 214b is in away from the position of the pipeline S of the material 1 that is formed and be parked in this with respect to the pipeline S of the material 1 that is formed.
And, descend by hydraulic cylinder 230 actions, the 1st lifting frame 225 that makes near the 1st rise and fall roller 224 the pipeline downstream B side that is arranged on pressure setting body 207, and hydraulic cylinder 237 actions of the 2nd rise and fall roller 231, the 2nd lifting frame 232 are descended, with the set positions of the above-below direction of each rise and fall roller 224,231 with upstream side roller-way 221 and downstream roller-way 238 with high position on.
Afterwards, the material 1 that will be formed is loaded into upstream side roller-way 221 from pipeline upstream A side (A side shown in Figure 180) and carries, by the metal die 214a of pressure setting body 207, between the 214b, send to the 1st rise and fall roller 224 of the pipeline downstream of pressure setting body 207 B side.
Move to the material 1 that is formed on the 1st rise and fall roller 224 and further imported on the 2nd rise and fall roller 2 31 and move on the downstream roller-way 238, the material 1 that is formed is carried to pipeline downstream B side.
Like this, in the presser device of Figure 17 and thickness of slab shown in Figure 180, since can will liftably be arranged on the set positions of above-below direction of the 1st rise and fall roller 224 on the pipeline downstream B side of pressure setting body 207 and the 2nd rise and fall roller 231 become identical with downstream roller-way 238 with upstream side roller-way 221, even so the material 1 that is formed is not being carried out depressing of thickness of slab direction when being shaped, the material 1 that is formed also can be transported to downstream B side reliably.
(the 6th embodiment)
Figure 19 and Figure 20 show the 6th example of embodiment of the presser device of thickness of slab of the present invention.Among the figure, the part that is marked with same-sign with Figure 17 and Figure 18 is represented same parts.
The 241st, the upstream side roller-way, this upstream side roller-way 241 is by on the pipeline upstream A side that is arranged on pressure setting body 207, roughly along the horizontally extending fixed frame 242 of pipeline S, constitute with a plurality of upstream side roller rollers 243 that can be arranged on this fixed frame 242 with rotating freely, wherein, but supporting to roller roller 243 approximate horizontal each metal die 214a that will pass pressure setting body 207, the following of material 1 and separate the interval of regulation along the pipeline direction of being formed between the 214b.
244 is the 1st rise and fall rollers, the 1st rise and fall roller 244 is by the 1st lifting frame 245 that extends on the pipeline downstream B side that liftably is arranged on upstream side roller-way 241, along pipeline S, constitute with a plurality of rise and fall roller rollers 246 that can be arranged on the 1st lifting frame 245 with rotating freely, wherein, roller roller 246 can support the material 1 that is formed sent from aforementioned upstream side roller-way 241 below and separate the interval of regulation along the pipeline direction.
Aforesaid the 1st lifting frame 245 by with previous described guiding parts 234, the same elevating mechanism (not shown) of hydraulic cylinder 237 (seeing Figure 17 and Figure 18) is bearing on the floor 227, and relatively pipeline S lifting.
247 is the 2nd rise and fall rollers, it is by the 2nd lifting frame 248 that liftably is arranged between aforementioned the 1st rise and fall roller 244 and the pressure setting body 207 and extends along pipeline S approximate horizontal, constitute with a plurality of rise and fall roller rollers 249 that can be arranged on the 2nd lifting frame 248 with rotating freely, wherein, roller roller 249 can support below the material 1 that is formed that the 1st rise and fall roller 244 is sent and separate the interval of regulation along the pipeline direction.
Aforesaid the 2nd lifting frame 248 by with previous described guiding parts 228, the same elevating mechanism (not shown) of hydraulic cylinder 230 (seeing Figure 17 and Figure 18) is bearing on the floor 227, and relatively pipeline S lifting.
In addition, aforesaid the 1st rise and fall roller 244 and the 2nd rise and fall roller 247 be by the action of the elevating mechanism that has separately, can drop to aforementioned upstream side roller-way 241 roughly the same height of level positions on.
The 250th, the downstream roller-way, it is by on the pipeline downstream B side that is arranged on pressure setting body 207, roughly along the horizontally extending fixed frame 251 of pipeline S, constitute with a plurality of downstreams roller roller 252 that can be arranged on this fixed frame 251 with rotating freely, wherein, roller roller 252 can be in aforementioned upstream side roller-way 241 and roughly the samely to heavens, approximate horizontal support from each metal die 214a, the following of sending between the 214b of material 1 and separate the interval of regulation along the pipeline direction of being formed.
Below, the action of the presser device of Figure 19 and the described thickness of slab of Figure 20 is illustrated.
Strip is formed material 1 by metal die 214a, and 214b at first, sets the metal die 214a of pressure setting body 207 and the interval between the metal die 214b when the thickness of slab direction is depressed shaping.
As shown in figure 19, set the position of the above-below direction of the 1st rise and fall roller 244 and the 2nd rise and fall roller 247 by the elevating mechanism (not shown), make from upstream side roller-way 241 towards metal die 214a, be formed the following of material 1 and each rise and fall roller roller 246 of sending between the 214b, 249 join, in the front and back of pressure setting body 207, make before depressing and the center line of the material 1 that is formed after depressing consistent, approximate horizontal ground supports the material 1 that is formed.
Then, make the last lower mold 214a of pressure setting body 207,214b is continuously when deviating from, the material 1 that is formed is loaded on the upstream side roller-way 221 from pipeline upstream A side also to be moved, pass aforementioned metal mould 214a, between the 214b, the thickness of the material 1 that is formed is reduced the size that is configured as regulation as shown in Figure 2.
By the metal die 214a of pressure setting body 207, the material 1 that is formed that 214b is shaped moves on the downstream roller-way 250 smoothly, and the material 1 that is formed is carried to pipeline downstream B side.
Like this, in the presser device of Figure 19 and thickness of slab shown in Figure 20, owing to a plurality of rise and fall roller rollers 246 are set in the pipeline upstream of pressure setting body 207 A side, 249, wherein roller roller 246,249 with from metal die 214a, the consistently lifting of lower position of the material 1 that is formed behind the plate compression attenuate that 214b sends, thereby as metal die 214a by pressure setting body 207, when the fore-end of the material 1 that is formed after 214b depresses hangs down, the fore-end of material 1 of can preventing to be formed is suspended on the downstream roller roller 252 that pipeline S downstream B side is provided with, prevent downstream roller roller 252 and the material 1 both sides damage that is formed with preventing trouble before it happens, can depress shaping effectively and can reliably the material 1 that is formed be transported to downstream B side along the thickness of slab direction of the material 1 that is formed.
Be formed material 1 not by metal die 214a at strip, when 214b depresses shaping in the thickness of slab direction, as shown in figure 20, set the position of the 1st rise and fall roller 244 and the 2nd rise and fall roller 247.
At first, make the last lower mold 214a of pressure setting body 207,214b deviates from the pipeline S of the material 1 that is formed, and makes each metal die 214a, and 214b is in away from the position of the pipeline S of the material 1 that is formed and be parked in this with respect to the pipeline S of the material 1 that is formed.
And, by the elevating mechanism (not shown), the 1st rise and fall roller 244 and the 2nd rise and fall roller 247 are descended, each rise and fall roller roller 246,249 is set in downstream roller roller 252 with the upstream side roller roller 243 of upstream side roller-way 241 and downstream roller-way 250 with on the high position.
Afterwards, the material 1 that will be formed is loaded into upstream side roller-way 241 from pipeline upstream A side (A side shown in Figure 20) and carries, through the 1st rise and fall roller 244 and the 2nd rise and fall roller 247, metal die 214a by pressure setting body 207, between the 214b, send to the downstream roller-way 250 of the pipeline downstream of pressure setting body 207 B side.
Like this, in the presser device of Figure 19 and thickness of slab shown in Figure 20, since can will liftably be arranged on the set positions of above-below direction of the 1st rise and fall roller 244 on the pipeline upstream A side of pressure setting body 207 and the 2nd rise and fall roller 247 become identical with downstream roller-way 250 with upstream side roller-way 241, even so the material 1 that is formed is not being carried out depressing of thickness of slab direction when being shaped, the material 1 that is formed also can be transported to downstream B side reliably.
And, the presser device and the using method thereof of thickness of slab of the present invention are not limited in the above embodiments, for example, can adopt the structure of lifting rise and fall roller roller respectively, and the rise and fall roller roller is arranged on the pipeline upstream side of pressure setting body and the structure that go up separately in the downstream, in addition, much less in the scope that does not exceed main points of the present invention, these structures can be combined.
As mentioned above, adopt the presser device and the using method thereof of thickness of slab of the present invention, have each following effect.
(1) in the presser device of technical scheme 7 described thicknesss of slab of the present invention, because liftable rise and fall roller roller is set in the downstream of metal die, wherein, roller roller is supporting below the be formed material of metal die after the thickness of slab direction is depressed, so can prevent to depress the sagging of material leading section that be formed of shaping, and damage of the roller roller that can prevent with preventing trouble before it happens so produce and the material both sides that are formed by metal die.
(2) in the presser device of technical scheme 8 described thicknesss of slab of the present invention, because the upstream side at metal die is provided with liftable rise and fall roller roller, wherein, roller roller supporting the material that is formed that will pass between metal die below, so can prevent to depress the sagging of material leading section that be formed of shaping, and damage of the roller roller that can prevent with preventing trouble before it happens so produce and the material both sides that are formed by metal die.
(3) in the presser device of technical scheme 9 described thicknesss of slab of the present invention, because the upstream side at metal die is provided with liftable rise and fall roller roller, wherein, roller roller supporting the material that is formed that will pass between metal die below, and, liftable rise and fall roller roller is set in the downstream of metal die, wherein this roller roller is supporting below the be formed material of metal die after the thickness of slab direction is depressed shaping, so can prevent to depress the sagging of material leading section that be formed of shaping, and damage of the roller roller that can prevent with preventing trouble before it happens so produce and the material both sides that are formed by metal die.
(4) in the using method of the presser device of technical scheme 10 described thicknesss of slab of the present invention, because the part that will support rise and fall roller roller below the be formed material of metal die after the thickness of slab direction is depressed, the liftable setting is set for the material that is formed is slowly descended towards the downstream roller roller, be suspended on the roller roller of downstream so can prevent to depress the leading section of the material that is formed after the shaping, and the material that will be formed is transported to the downstream reliably.
(5) in the using method of the presser device of technical scheme 11 described thicknesss of slab of the present invention, owing to being set for, the rise and fall roller roller make the material that is formed depressing before being shaped that will pass between the metal die be the approximate horizontal shape, be suspended on the roller roller of downstream so can prevent to depress be formed after the shaping leading section of material, and the material that will be formed is transported to the downstream reliably.
(6) in the using method of the presser device of technical scheme 12 described thicknesss of slab of the present invention, owing to being set for, the rise and fall roller roller make the material that is formed depressing before being shaped that will pass between the metal die roughly become horizontal, and roughly become horizontal by the material that is formed of metal die after the thickness of slab direction is depressed, be suspended on the roller roller of downstream so can prevent to depress the material that is formed after the shaping, and the material that will be formed is transported to the downstream reliably.
(7) even in the using method of the presser device of the arbitrary described thickness of slab of technical scheme 13-15 of the present invention, since with the height and position of rise and fall roller roller set for upstream side roller roller and roller roller equal height position, downstream on, thereby not by metal die depress be formed material also really downstream side carry.
(the 7th embodiment)
Figure 21-Figure 25 shows the example of embodiment of the presser device of thickness of slab of the present invention, the presser device of this thickness of slab has upright being located on the assigned position of pipeline S, make the support 319 of material 1 that be formed by middle body, a pair of upstream side slide block 324a with respect to opposite disposed about the pipeline S, 324b, be positioned at upstream side slide block 324a, the pipeline downstream B side of 324b and with respect to pipeline S opposed a pair of downstream slide block 325a up and down, 325b, be supported on upstream side slide block 324a, upstream side metal die 330a on the 324b, 330b, be supported on downstream slide block 325a, downstream metal die 333a on the 325b, 333b, make upstream side slide block 324a, 324b is approaching, the upstream side slide block 336a of travel mechanism that deviates from pipeline S, 336b, make downstream slide block 325a, 325b is approaching, the 344a of downstream slide block travel mechanism that deviates from pipeline S, 344b, move back and forth upstream side metal die 330a, 330b's along pipeline S, as the upstream side hydraulic cylinder 352a of upstream side metal die travel mechanism, 352b, move back and forth downstream metal die 333a along pipeline S, 333b's, as the hydraulic cylinder 354a of downstream metal die travel mechanism, 354b is with relative aforesaid two 336a of slide block travel mechanism, 336b, 344a, the synchronous drive mechanism 356a of 344b, 356b.
In support 319 inside, in close pipeline upstream A side part, form that pipeline S in opposed mode clamping up and down and towards the recessed upstream side slide block maintaining part 320a of reverse pumping line sending side, 320b near pipeline downstream B side part, forms that pipeline S in opposed mode clamping up and down and towards the recessed downstream slide block maintaining part 321a of reverse pumping line sending side, 321b, downstream slide block maintaining part 321a, 321b is than upstream side slide block maintaining part 320a, and 320b is more near pipeline S.
In addition, on the peripheral edge portion of support 319, near pipeline upstream A side part, above or below support 319, link upstream side slide block maintaining part 320a, connecting rod reach through hole 322a on the 320b, 322b and close pipeline downstream B side part, above or below support 319, link downstream slide block maintaining part 321a, connecting rod reach through hole 323a on the 321b, 323b are formed in slide block maintaining part 320a separately, 320b side by side at per 2 places of the width of the material 1 that is formed, 321a is on the 321b.
Upstream side slide block 324a, 324b can be approaching, deviate from pipeline S ground is inlaid in upstream side slide block maintaining part 320a slidably, among the 320b, and downstream slide block 325a, 325b can be approaching, deviate from pipeline S ground is inlaid in downstream slide block maintaining part 321a slidably, among the 321b.
Upstream side slide block 324a, 324b and downstream slide block 325a, 325b are provided with on the surface of pipeline S side can be along the reciprocating metal die seat 326a in pipeline S approximate horizontal ground, 326b, 327a, 327b.
And, upstream side slide block 324a, 324b and downstream slide block 325a, per 2 places are provided with over against connecting rod reach through hole 322a on the surface of the reverse pumping line sending side of 325b, 322b, 323a, the support 328a of 323b, 328b, 329a, 329b.
Upstream side metal die 330a, 330b has from A side direction pipeline downstream, pipeline upstream B side gently near the smooth forming face 331a of pipeline S, 331b, with with this forming face 331a, the pipeline downstream B side of 331b link to each other and approximate horizontal stand facing each other in the smooth forming face 332a of pipeline S, 332b, and be installed to aforesaid metal die seat 326a, on the 326b.
Downside metal die 333a, 333b has from A side direction pipeline downstream, pipeline upstream B side gently near the smooth forming face 334 of pipeline S, 334b, with with this forming face 334a, the pipeline downstream B side of 334b link to each other and approximate horizontal stand facing each other in the smooth forming face 335a of pipeline S, 335b, and be installed to aforesaid metal die seat 327a, on the 327b.
The upstream side slide block 336a of travel mechanism, 336b is by making aforementioned upstream side slide block maintaining part 320a, 320b is positioned at the axle box 337a that is configured in support 319 above and belows on the reverse pumping line sending side, 337b, along extending and the 338a of non-eccentricity portion perpendicular to pipeline S direction approximate horizontal, the 338b axle is supported on axle box 337a, bent axle 339a on the 337b, 339b and pass aforesaid connecting rod reach through hole 322a, the connecting rod 342a of 322b, 342b constitutes, and wherein, the base end part axle of connecting rod is bearing in bent axle 339a, the eccentric part 340a of 339b, last and the leading section of 340b is with being parallel to bent axle 339a, and the pin 341a of 339b, 341b axle are bearing in upstream side slide block 324a, the support 328a of 324b is on the 328b.
The axle box 337a that is positioned at pipeline S top is fixedly attached on the support unit 343a of support 319 tops setting, and the axle box 337b that is positioned at below the pipeline S is supported on to variable bit on the support unit 343b of support 319 bottoms setting along the vertical direction.
In addition, axle box 337b is set with the bolt (not shown) by the position adjustment with respect to the upper-lower position of pipeline S.
At this upstream side slide block 336a of travel mechanism, among the 336b, along with bent axle 339a, the rotation of 339b, eccentric part 340a, the displacement of 340b is through connecting rod 342a, and 342b is delivered to upstream side slide block 324a, 324b, with this upstream side slide block 324a, 324b together, metal die seat 326a, 326b and upstream side metal die 330a, 330b near or deviate from pipeline S.
The 344a of downstream slide block travel mechanism, 344b is by making aforementioned downstream slide block maintaining part 321a, 321b is positioned at the axle box 345a that is configured in support 319 above and belows on the reverse pumping line sending side, 345b, along extending and the 346a of non-eccentricity portion perpendicular to pipeline S direction approximate horizontal, the 346b axle is supported on axle box 345a, bent axle 347a on the 345b, 347b and pass aforesaid connecting rod reach through hole 323a, the connecting rod 350a of 323b, 350b constitutes, and wherein, the base end part axle of connecting rod is bearing in bent axle 347a, the eccentric part 348a of 347b, last and the leading section of 348b is with being parallel to bent axle 347a, and the pin 349a of 347b, 349b axle are bearing in downstream slide block 325a, the support 329a of 325b is on the 329b.
The axle box 345a that is positioned at pipeline S top is fixedly attached on the support unit 351a of support 319 tops setting, and the axle box 345b that is positioned at below the pipeline S is supported on to variable bit on the support unit 351b of support 319 bottoms setting along the vertical direction.
In addition, axle box 345b is set with the bolt (not shown) by the position adjustment with respect to the upper-lower position of pipeline S.
At the 344a of this downstream slide block travel mechanism, among the 344b, along with bent axle 347a, the rotation of 347b, eccentric part 348a, the displacement of 348b is through connecting rod 350a, and 350b is delivered to downstream slide block 325a, 325b, with this downstream slide block 325a, 325b together, metal die seat 327a, 327b and downstream metal die 333a, 333b near or deviate from pipeline S.
Upstream side hydraulic cylinder 352a, 352b is installed in upstream side slide block 324a, on the close pipeline upstream A side part of 324b, make piston rod 353a, 353b is towards pipeline downstream B side and be positioned on the position that is parallel to pipeline S, in addition, and aforementioned piston rod 353a, 353b and upstream side metal die 330a, 330b connects.
At this upstream side hydraulic cylinder 352a, among the 352b, when giving side liquid chamber hydraulic pressure, along with piston rod 353a, the release of 353b, metal die seat 326a, 326b and upstream side metal die 330a, 330b is with respect to upstream side slide block 324a, 324b is towards pipeline downstream B side shifting, when giving bar side liquid chamber hydraulic pressure, along with piston rod 353a, the propelling of 353b, metal die seat 326a, 326b and upstream side metal die 330a, 330b are with respect to upstream side slide block 324a, and 324b is towards pipeline upstream A side shifting.
Downstream hydraulic cylinder 354a, 354b is installed in downstream slide block 325a, the close pipeline downstream B side of 325b, make piston rod 355a, 355b is towards pipeline upstream A side and be positioned on the position that is parallel to pipeline S, in addition, and aforementioned piston rod 355a, 355b and upstream side metal die 333a, 333b connects.
At this downstream hydraulic cylinder 354a, among the 354b, when giving bar side liquid chamber hydraulic pressure, along with piston rod 355a, the propelling of 355b, metal die seat 327a, 327b and upstream side metal die 333a, 333b is with respect to downstream slide block 325a, 325b is towards pipeline downstream B side shifting, when giving side liquid chamber hydraulic pressure, along with piston rod 355a, the release of 355b, metal die seat 327a, 327b and downstream metal die 333a, 333b are with respect to downstream slide block 325a, and 325b is towards pipeline upstream A side shifting.
Synchronous drive mechanism 356a, 356b have power shaft 357a, 357b, upstream side output shaft 358a, 358b, downstream output shaft 359a, 359b, and with power shaft 357a, the rotation of 357b is delivered to two output shaft 358a, 358b, 359a, a plurality of gear (not shown)s of 359b, as power shaft 357a, when 357b rotates, two output shaft 358a, 358b, 359a, 359b equidirectional with revolution be rotated.
The upstream side output shaft 358a of the synchronous drive mechanism 356a of one side is through the universal coupling (not shown), be connected with the 338a of non-eccentricity portion of the bent axle 339a that constitutes the upstream side slide block 336a of travel mechanism, and downstream output shaft 359a is connected with the 338b of non-eccentricity portion of the bent axle 347a that constitutes the downstream 344a of slide block travel mechanism through the universal coupling (not shown).
Above-mentioned bent axle 339a, 347a be with respect to output shaft 358a, and the phase difference that the connection status of 359a is set the eccentric part 348a of the eccentric part 340a of bent axle 339a and bent axle 347a for is 180 °.
The upstream side output shaft 358b of the synchronous drive mechanism 356b of opposite side is through the universal coupling (not shown), be connected with the 338b of non-eccentricity portion of the bent axle 339b that constitutes the upstream side slide block 336b of travel mechanism, and downstream output shaft 359b is connected with the 338b of non-eccentricity portion of the bent axle 347b that constitutes the downstream 344b of slide block travel mechanism through the universal coupling (not shown).
Above-mentioned bent axle 339b, 347b be with respect to output shaft 358b, and the phase difference that the connection status of 359b is set the eccentric part 348b of the eccentric part 340b of bent axle 339b and bent axle 347b for is 180 °.
And, each synchronous drive mechanism 356a, the power shaft 357a of 356b, 357b is connected with the motor output shaft in other places through the universal coupling (not shown), when a side motor is driven, and bent axle 339a, 347a is counter rotation in Figure 21-Figure 24, when the opposing party's motor was driven, bent axle 339b, 347b be the clockwise direction rotation in Figure 21-Figure 24.
In addition, the revolution of motor is by controller (not shown) Synchronization Control up and down, so that it is corresponding with the speed of the material 1 that is formed that moves along pipeline S, and make the bent axle 339a of pipeline S top, the bent axle 339b of 347a and pipeline S below, the phase place of 347b is the center symmetry with pipeline S.
Depress in the thickness of slab direction by the presser device of the thickness of slab of Figure 21-shown in Figure 25 and to be shaped when being formed material 1, circumferentially suitably rotate with respect to pipeline S below axle box 337b by the edge, the position adjustment bolt (not shown) of 345b, thickness of slab according to the material 1 that is formed that will depress shaping, set upstream side metal die 330a, the interval of 330b and downstream metal die 333a, the interval of 333b.
And, make synchronous drive mechanism 356a, last each the subsidiary motor (not shown) action of 356b, the bent axle 339a of pipeline S top, 347a counter rotation, and the bent axle 339b of pipeline S below, the rotation of 347b clockwise direction.
Thus, along with bent axle 339a, the rotation of 339b, eccentric part 340a, the displacement of 340b is through connecting rod 342a, 342b is delivered to upstream side slide block 324a, 324b, upstream side metal die 330a, 330b and this upstream side slide block 324a, 324b is together near pipeline S, along with bent axle 347a, and the rotation of 347b, eccentric part 348a, the displacement of 348b is through connecting rod 350a, and 350b is delivered to downstream slide block 325a, 325b, downstream metal die 333a, 333b and this downstream slide block 325a, 325b together with aforementioned upstream side metal die 330a, 330b antiphase ground is approaching, deviate from pipeline S.
Have, upstream side metal die 330a, 330b are during near pipeline S again, give upstream side hydraulic cylinder 352a, the piston head side liquid chamber hydraulic pressure of 352b makes upstream side metal die 330a, and 330b is towards pipeline downstream B side shifting (seeing Figure 22 and Figure 23), upstream side metal die 330a, when 330b deviates from pipeline S, give upstream side hydraulic cylinder 352a, the piston rod side fluid chamber hydraulic pressure of 352b, make upstream side metal die 330a, 330b is towards pipeline upstream A side shifting (seeing Figure 24 and Figure 21).
When equally, downstream metal die 333a, 333b are near pipeline S, give downstream hydraulic cylinder 354a, the piston rod side fluid chamber hydraulic pressure of 354b makes downstream metal die 333a, and 333b is towards pipeline downstream B side shifting (seeing Figure 24 and Figure 21), downstream metal die 333a, when 333b deviates from pipeline S, give downstream hydraulic cylinder 354a, the piston head side liquid chamber hydraulic pressure of 354b, make downstream metal die 333a, 333b is towards pipeline upstream A side shifting (seeing Figure 22 and Figure 23).
Then, to pass the upstream side metal die 330a of pipeline upstream A side in the end that the thickness of slab direction is depressed close pipeline downstream shaping, that be formed material 1 B side, between the 330b, and with this material 1 that is formed during towards pipeline downstream B side shifting, by near pipeline S and towards the pipeline downstream upstream side metal die B side shifting, up and down 330a, 330b carries out depressing the 1st thickness of slab reduction of material 1 of being formed that is shaped in the thickness of slab direction.
At this moment, downstream metal die 333a, 333b deviate from pipeline S and towards pipeline upstream A side shifting.
Along with the material 1 that is formed towards pipeline downstream B side shifting, when carrying out the 1st thickness of slab reduction towards pipeline upstream A side from the end of the close pipeline downstream B side of the material 1 that is formed, carry out the end of close pipeline downstream B side of the material 1 that is formed of the 1st thickness of slab reduction and passed downstream metal die 333a, between the 333b, by near pipeline S and towards the downstream B side shifting, up and down, pipeline downstream metal die 333a, 333b carries out depressing the 2nd thickness of slab reduction of material 1 of being formed that is shaped in the thickness of slab direction.
At this moment, because upstream side metal die 330a, 330b deviates from pipeline S and towards pipeline upstream A side shifting, so can with from the power-on and power-off machine, be delivered to synchronous drive mechanism 356a, the revolving force of 356b is by downstream metal die 333a, and 333b effectively utilizes in the shaping of depressing to the material 1 that is formed.
In addition, the upstream side slide block 336a of travel mechanism, the bent axle 339a of 336b, 339b and connecting rod 342a, 342b and upstream side metal die 330a, the inertia force of 330b etc., through synchronous drive mechanism 356a, 356b and the downstream slide block 344a of travel mechanism, the bent axle 347a of 344b, 347b and connecting rod 350a, 350b etc. are delivered to downstream metal die 333a, 333b helps this downstream metal die 333a, and 333b is to the shaping of depressing of the material 1 that is formed.
The moment that the 2nd thickness of slab reduction that the end of the close pipeline downstream B side of the material 1 that is formed is carried out finishes, upstream side metal die 330a, 330b is in the state (seeing Figure 21) that deviates from pipeline S most, along with material 1 the moving that be formed towards pipeline downstream B side, pass upstream side metal die 330a with the 1st thickness of slab reduction latter end shaped portion of not depressing that link to each other, that be formed material 1, between the 330b, by upstream side metal die 330a up and down, 330b is near pipeline S, and the 1st thickness of slab of the material 1 that can be formed reduces.
Meanwhile, because downstream metal die 333a, 333b deviates from pipeline S (seeing Figure 22), from motor up and down and be delivered to synchronous drive mechanism 356a, the revolving force of 356b can be by upstream side metal die 330a, and 330b effectively utilizes in the shaping of depressing to the material 1 that is formed.
And, the downstream slide block 344a of travel mechanism, the bent axle 347a of 344b, 347b and connecting rod 350a, 350b, or downstream metal die 333a, the inertia force of 333b etc., through synchronous drive mechanism 356a, 356b and the upstream side slide block 336a of travel mechanism, the bent axle 339a of 336b, 339b and connecting rod 342a, 342b etc. are delivered to upstream side metal die 330a, 330b, help this upstream side metal die 330a, 330b is to the shaping of depressing of the material 1 that is formed.
And, in the 1st thickness of slab reduction finish time to the above-mentioned part of the material 1 that is formed, downstream metal die 333a, 333b is in the state (seeing Figure 23) that deviates from pipeline S most, along with material 1 the moving that be formed towards pipeline downstream B side, the 1st thickness of slab of the material 1 that is formed that links to each other with part after the 2nd thickness of slab reduction finishes reduces latter end and passes downstream metal die 333a, between the 333b, by downstream metal die 333a up and down, 333b can carry out the 2nd thickness of slab reduction to the material 1 that is formed, meanwhile near pipeline S, upstream side metal die 330a, 330b deviate from pipeline S (seeing Figure 24).
Like this, in the presser device of the thickness of slab of Figure 21-shown in Figure 25, because with upstream side metal die 330a, 330b depresses to be shaped in the thickness of slab direction and is formed after not the depressing shaped portion, carry out the reduction of the 1st thickness of slab of material 1, with downstream metal die 333a, 333b depresses the 1st of the material 1 that is formed of being shaped in the thickness of slab direction and depresses the shaping latter end, carries out the reduction of the 2nd thickness of slab, so can depress the material 1 that is formed that is shaped effectively in the thickness of slab direction.
In addition, because the 1st thickness of slab reduction of not depressing shaped portion of the material 1 that is formed and the 1st thickness of slab reduction to the material 1 that is formed being finished the 2nd thickness of slab reduction of rear section alternately carries out, so pay upstream side metal die 330a, 330b and downstream metal die 333a, 333b depresses load and can access and alleviate, and can effectively utilize and be delivered to synchronous drive mechanism 356a, the revolving force of the motor up and down on the 356b.
Thus, support 319, slide block 324a, 324b, 325a, 325b and metal die seat 326a, 326b, 327a, 327b, and axle box 337a, 337b, 345a, 345b, bent axle 339a, 339b, 347a, 347b, connecting rod 342a, 342b, 350a, 350b etc. constitute the slide block 336a of travel mechanism, 336b, 344a, the strength condition of each parts of 344b is relaxed, and can make it miniaturization.
In addition, because upstream side metal die 330a, 330b and downstream metal die 333a, 333b depresses and is shaped when being formed material 1, towards pipeline downstream B side shifting, so can suppress owing to depress shaping, the material that the material 1 that is formed extends towards pipeline upstream A side retreats.
In addition, the presser device and the method thereof of thickness of slab of the present invention are not limited in the foregoing description, can adopt driver to replace hydraulic cylinder to be used for the structure of metal die travel mechanism with stretch modes such as screw jack, with the structure of all bent axles with same motor rotation, with the structure of each bent axle by the rotation of separately motor, and the connecting rod number that the displacement of crankshaft eccentric portion is delivered to slide block changed, in addition, much less in the scope that does not exceed main points of the present invention, these can be changed addition.
As above-mentioned, adopt the presser device and the method thereof of thickness of slab of the present invention, have following various good results.
(1) in the pressing plate method of technical scheme 16 described thicknesss of slab of the present invention, owing to depress to be shaped in the thickness of slab direction with up and down upstream side metal die and be formed after not the depressing shaped portion, carry out the reduction of the 1st thickness of slab of material, depress the 1st of the material that is formed of being shaped with up and down downstream metal die in the thickness of slab direction and depress the shaping latter end, carry out the reduction of the 2nd thickness of slab, so can depress the material that is formed that is shaped effectively in the thickness of slab direction.
(2) in the pressing plate method of technical scheme 16 described thicknesss of slab of the present invention, because the 1st thickness of slab reduction of not depressing shaped portion of the material that is formed and the 2nd thickness of slab reduction to the 1st thickness of slab reduction latter end of the material that is formed are hocketed, so pay depressing load and can being alleviated of upstream side metal die and downstream metal die.
(3) even in the presser device of the arbitrary described thickness of slab of technical scheme 17-20 of the present invention, because by upstream side slide block travel mechanism, upstream side metal die and upstream side slide block are together near pipeline, depress the shaped portion of not depressing of the material that is formed in the thickness of slab direction by upstream side metal die up and down, then, with downstream slide block travel mechanism, make downstream metal die and downstream slide block together near pipeline, depress the part of the material of depressing by the upstream side metal die that is formed by up and down downstream metal die in the thickness of slab direction, can depress the material that is formed that is shaped effectively in the thickness of slab direction.
(4) even in the presser device of the arbitrary described thickness of slab of technical scheme 17-20 of the present invention, by under opposite phases, by upstream side slide block travel mechanism make the upstream side metal die approaching, deviate from pipeline, with make by downstream slide block travel mechanism the downstream metal die approaching, deviate from pipeline, the load of depressing of paying upstream side metal die and downstream metal die can be alleviated, thus, the strength condition that constitutes each parts of the slide block adorning metal die and slide block travel mechanism is relaxed, and can make it miniaturization.
(the 8th embodiment)
Figure 26-Figure 29 shows the example of the presser device embodiment of thickness of slab of the present invention, and among the figure, the part that is marked with same-sign with Fig. 3 is represented same parts.
The 417th, walking finishing pressure setting, it has and same spline structure shown in Figure 3.
In the walking finishing pressure setting 417, at metal die 412a, the pipeline upstream A side configuration upstream side roller roller 418 of 412b is at pipeline downstream B side configuration downstream roller roller 419.
Upstream side roller roller 418 is by the metal die 412a at walking finishing pressure setting 417, the pipeline upstream A side of 412b, width along the material 1 that is formed below pipeline S separates predetermined distance abreast and extends the fixed frame 420 of setting along pipeline S approximate horizontal, predetermined distance ground disposes and but a plurality of roller rollers 421 of free rotary ground supporting on fixed frame 420 constitute with separating on this fixed frame 420, wherein, supporting to roller roller 421 approximate horizontal each metal die 412a that will pass walking finishing pressure setting 417, between the 412b, the lower surface of material 1 is formed.
Downstream roller roller 419 is by the metal die 412a at walking finishing pressure setting 417, the pipeline downstream B side of 412b, width along the material 1 that is formed below pipeline S separates predetermined distance abreast and extends the fixed frame 422 of setting along pipeline S approximate horizontal, predetermined distance ground disposes and but a plurality of roller rollers 423 of free rotary ground supporting on fixed frame 422 constitute with separating on this fixed frame 422, wherein, supporting to roller roller 423 approximate horizontal and to send between the 412b from each metal die 412a of walking finishing pressure setting 417, the lower surface of material 1 is formed.
Be in close proximity to metal die 412a at walking finishing pressure setting 417, the pipeline upstream A side of 412b, above the roller roller 421 of upstream side roller roller 418, disposing along being formed material 1 width face-off clamping pipeline S and can be approaching, the a pair of upstream side flipper guide 424 that deviates from pipeline S, be in close proximity to aforementioned metal mould 412a, the pipeline downstream B side of 412b, above the roller roller 423 of downstream roller roller 419, disposing along being formed material 1 width face-off clamping pipeline S and can be approaching, the a pair of downstream flipper guide 425 that deviates from pipeline S.
Upstream side flipper guide 424 and downstream flipper guide 425 are as Figure 27 and shown in Figure 28, has each fixed frame 420 that is arranged on upstream side roller roller 418 and downstream roller roller 419 respectively, a plurality of guide frames 426 on the floor of 422 the line sending of reverse pumping separately side, they separate predetermined distance and along extending perpendicular to the horizontal direction of pipeline S along pipeline S direction; Also have by this guide frame 426, can be along a plurality of supports 427 that supporting perpendicular to pipeline S direction with moving freely; Be fixedly installed on each framework 427 leading section and along being parallel to a pair of flipper guide main body 428a that pipeline S mode supports, 428b.
And, the flipper guide main body 428a of upstream side flipper guide 424 as shown in figure 27, form pipeline upstream A side is widened at interval gradually towards the upstream side of pipeline S, and the flipper guide main body 428b of downstream flipper guide 425 equally as shown in figure 27, forms pipeline downstream B side is widened at interval gradually towards pipeline S downstream.
In addition, upstream side flipper guide 424 and downstream flipper guide 425 have hydraulic cylinder 431, hydraulic cylinder cardinal extremity pivot props up on the support 429 of the reverse pumping line sending side end of each guide frame 426, and tailpiece of the piston rod is sold 430 and is connected to each flipper guide main body 428a, the assigned position of 428b, by hydraulic pressure being given a side liquid chamber or bar side liquid chamber, about flipper guide main body 428a, 428b is synchronously approaching mutually, deviate from pipeline S.
And, upstream side flipper guide 424 has a plurality of upstream side rigid rollers 432, it with predetermined distance separate, and pivotally connected about on each flipper guide main body 428a, so that and pass edge portion between the upstream side flipper guide 424, that be formed material 1 width and join, and downstream flipper guide 425 has a plurality of downstreams rigid roller 433, it with predetermined distance separate, pivotally connected about on each flipper guide main body 428b, so that and pass edge portion between the downstream flipper guide 425, that be formed material 1 width and join.
Have again, the 434th, pinch roll, it be configured in the pipeline upstream A side of walking finishing pressure setting 417 and downstream B side near.
Below, the action of the presser device of the thickness of slab shown in Figure 26-29 is illustrated.
The strip material 1 that is formed passes the last lower mold 412a of walking finishing pressure setting 417, between the 412b and by two metal die 412a, 412b depresses in the thickness of slab direction and is shaped when being formed material 1, in upstream side flipper guide 424 and downstream flipper guide 425 hydraulic cylinder 4 31 separately, a bar side liquid chamber and a hydraulic pressure that the side liquid chamber suits, make upstream side flipper guide 424 and downstream flipper guide 425 near or deviate from pipeline S, the surplus that the left and right sides guide plate main body 428a of upstream side flipper guide 424 and downstream flipper guide 425, the width that the interval of 428b is adjusted to the material 1 that is formed relatively have a regulation (for example+10mm).
And, adjust bolt 416 by position of rotation suitably, will go up lower mold 412a, the interval of 412b is set at corresponding to the thickness of slab that will depress the material 1 that is formed of shaping in the thickness of slab direction.
Then, starter motor, rotation upper-lower rotating shaft 407a, in the time of 407b, the material 1 that is formed that will depress shaping is conducted on the upstream side roller roller 418 from pipeline S upstream side.
The material 1 that is formed on the upstream side roller roller 418, move to the downstream from pipeline S upstream side, near the upstream side of walking finishing pressure setting 417, by the flipper guide main body 428a of upstream side flipper guide 424 and upstream side rigid roller 432 guiding width edge portions and be constrained to along pipeline S and move, import the last lower mold 412a of walking finishing pressure setting 417, the width center between 412b.
Thus, be formed material 1 edge pipeline S from A side direction pipeline downstream, pipeline upstream B side shifting, and the limit is by along with rotating shaft 407a, the displacement of the eccentric part of 407b and last lower mold 412a approaching, that deviate from pipeline S, 412b depresses shaping in the thickness of slab direction.
At this moment, give hydraulic cylinder 413a, the bar side liquid chamber of 413b and a suitable hydraulic pressure in side liquid chamber, for making lower mold 412a, the forming face 415a of the close pipeline downstream B side of 412b, 415b is parallel to pipeline S all the time, and change metal die seat 411a, the angle of 411b.
Metal die 412a by walking finishing pressure setting 417,412b depresses the material 1 that is formed that is shaped and sends to pipeline S downstream, near the pipeline downstream B side of walking finishing pressure setting 417, limit it by the flipper guide main body 428b of downstream flipper guide 425 and downstream rigid roller 433 and bend right and left, and be directed width edge portion ground and carry along pipeline S.
Like this, in the presser device of the thickness of slab of Figure 26-shown in Figure 29, because at metal die 412a, 412b extremely is provided with upstream side flipper guide 424 near pipeline upstream A side, wherein this flipper guide 424 has a pair of flipper guide main body 428a that axle is supporting upstream side rigid roller 432, so can be by last lower mold 412a, 412b will move and import along pipeline S at the material 1 that is formed that the thickness of slab direction is depressed walking finishing pressure setting 417 on lower mold 412a, the width center of 412b, and the material 1 width edge portion that can prevent to be formed slides with respect to flipper guide main body 428a.
In addition, because at metal die 412a, 412b extremely is provided with downstream flipper guide 425 near pipeline downstream B side, wherein this flipper guide 425 has a pair of flipper guide main body 428b that axle is supporting downstream rigid roller 433, so can suppress by last lower mold 412a, 412b slides with respect to flipper guide main body 428b in the crooked and material 1 width edge portion that can prevent to be formed that is formed about material 1 edge that the thickness of slab direction is depressed.
As above-mentioned, adopt the presser device of thickness of slab of the present invention, have following various effect.
(1) in arbitrary presser device of technical solution of the present invention 21 or 22 described thicknesss of slab, owing to will go up between lower mold from the material importing that is formed that will depress shaping of side shifting downstream of pipeline upstream side by the upstream side flipper guide, depress shaping with metal die, and suppressed by the downstream flipper guide, so can depress shaping continuously in the thickness of slab direction to the material that is formed of strip to the bending right and left of the material that is formed that the pipeline downstream is sent.
(2) in the presser device of technical solution of the present invention 22 described thicknesss of slab, the width edge portion that is imported the material that is formed between metal die by the upstream side flipper guide is guided by the upstream side rigid roller, the flipper guide main body slip of material width direction edge portion with respect to the upstream side flipper guide prevented to be formed, and, the material width direction edge portion that is formed that is bent right and left by downstream flipper guide restriction is guided by the downstream rigid roller, and the edge portion of the material width direction that can prevent to be formed slides with respect to the flipper guide main body of downstream flipper guide.
(the 9th embodiment)
Figure 30 is the pie graph of rolling equipment with presser device of thickness of slab of the present invention.Among this figure, the downstream of the presser device 510 of thickness of slab of the present invention is provided with looper 506, and its downstream also is provided with finishing mill 505.Looper 506 makes by the lax shape ground of stocking and is keeping, the sag stagnation that the linear speed difference of the presser device 510 of thickness of slab and finishing mill 505 is generated.
Figure 31 is the front view of presser device of the thickness of slab of Figure 30, and Figure 32 is the cutaway view along A-A line among Figure 31.As Figure 31 and shown in Figure 32, the presser device 510 of thickness of slab of the present invention has relatively by driving shaft up and down 512 opposite disposed up and down of stocking 1, that be driven in rotation; One end 514a (right-hand member among the figure) and driving shaft 512 be free to slide the chimeric and the other end 514b (left end) in ground rotated freely mutually be connected depress framework 514 up and down; But horizontal direction is supporting the horizontal guide 516 of the connecting portion 514c that depresses framework 514 movably; Relatively by the opposed last lower mold 518 on framework 514 1 ends depressed that is installed in up and down of stocking 1.In addition, 511 be frame among the figure.
Driving shaft 512 has 1 couple of eccentric shaft 512a that phase place staggers mutually respectively at the width both ends up and down.In addition, eccentric shaft 512a is provided with ball-joint 515 with the fitting portion of depressing framework 514, and relative drive shaft axle center X depresses framework 514 and can roll shown in arrow A among the figure.And, metal die 518 with by the stocking side be the circular-arc of projection by the contact-making surface of stocking 1, can depress smoothly along with rolling.
Shown in figure 32, the drive unit 520 that has rotating driveshaft 512.With these drive units 520 of speed control 522 control, rotating speed that can free accessory drive 520.In addition, in the present embodiment, metal die 518 and depress between the framework 514 clamping and Height Adjustment plate 524 by changing the thickness of Height Adjustment plate 524, can be adjusted the height of metal die 518.
Figure 33 shows the ideograph of metal die track, and metal die 518 and the whole track of depressing framework 514 (A) are shown, and the track of metal die 518 (B) only is shown.And Figure 34 shows the up and down displacement of metal die 518 with respect to driving shaft anglec of rotation θ.As Figure 33 and shown in Figure 34, because the rotation of driving shaft 512, it is 2 times of circular motion to its eccentric amount e that eccentric shaft 512a carries out diameter, thereupon, the left part 514b that depresses framework 514 up and down moves before and after the pipeline direction, and right part 514a (in Figure 31) knee-action.Thereby as shown in the drawing, it is 2 times of circular motion to the eccentric amount e of eccentric shaft 512a that last lower mold 518 carries out diameter, opens on rolling limit, width limit simultaneously, closes.Thereby, close edge pipeline direction by last lower mold 518 frontier junctures and move, can make and be pressed material 1 conveying while being depressed.In addition, because rolling frontier juncture, last lower mold 518 limit is closed, alleviated the compacting load.Drafts is by the decision of the eccentric amount e of eccentric shaft 512a, can not limit ground such as angle of nip and carry out high drafts.Have again,, can realize the walking compacting because carry by pressure material 1 while depressing.
In addition, shown in Figure 33 (B), metal die 518 is installed into, and (double dot dash line among the figure) parallel portion 518a is parallel to each other when depressing, and (solid line among the figure) tilts slightly with respect to depressing framework 514 when opening.
In addition, as shown in figure 34, owing to be positioned at 1 pair of mutual phase shifting of eccentric shaft 512a at width both ends,, can alleviate the compacting load so, close because of rolling frontier juncture, last lower mold 518 limit in the compacting scope difference at both ends.
Have, by the speed control 522 of drive unit 520, with the speed setting one-tenth of driving shaft 512, the speed of the pipeline direction of metal die 518 when depressing is roughly consistent with the feed rate of being pressed material 1 again.Adopt this structure, can make the pipeline direction speed of metal die 518 roughly consistent, can alleviate the load of the drive unit 520 that drives driving shaft 512 with the rate of delivery of being pressed material 1.
As above-mentioned, the presser device of thickness of slab of the present invention has following superior effect, (1) can carry out depressing the walking compacting of stocking while carrying, (2) member is few, simple structure, and the position that (3) bear compacting load and slip is few, (4) can under high load capacity and high circulation, turn round, (5) the enough simple structures of energy, the position of adjusting metal die, the thickness of correction stocking.
(the 10th embodiment)
Figure 35 is the pie graph of rolling equipment with presser device of thickness of slab of the present invention.In the figure, be provided with looper 606, be connected on its downstream finishing mill 605 also is set in the downstream of hot rolling slab device 610 of the present invention.Looper 606 makes is pressed the lax shape of material keeping, and the sag that the linear speed difference of hot rolling slab device 610 and finishing mill 605 can be generated is stagnated.
Figure 36 is the front view of the hot rolling slab device of Figure 35, and Figure 37 is the cutaway view along A-A line among Figure 36.As Figure 36 and shown in Figure 37, hot rolling slab device 601 of the present invention has the bent axle up and down 612 arranged opposite up and down, that be driven in rotation of being pressed material 1 relatively; One end 614a (right-hand member among the figure) and bent axle 612 be free to slide the chimeric and the other end 614b (left end) in ground rotated freely mutually be connected depress framework 614 up and down; But horizontal direction is supporting the horizontal guide 616 of depressing framework 614 connecting portion 614c movably; Relatively by the stocking 1 opposed last lower mold of depressing up and down on framework 614 1 ends 618 that is installed in.In addition, 611 be frame among the figure.
As shown in figure 37, have the drive unit 620 that drives bent axle 612 rotations, with speed control 622 these drive units 620 of control, rotating speed that can free accessory drive 620.
In addition, in the present embodiment, metal die 618 and depress between the framework 614 clamping and Height Adjustment plate 624 by changing the thickness of this Height Adjustment plate 624, can be adjusted the height of metal die 618.
Figure 38 shows the ideograph of metal die track, metal die 618 (A) is shown and depresses the track of framework 614 integral body, and the track of metal die 618 (B) only is shown.Just as shown in the drawing, by the rotation of bent axle 612, it is 2 times of circular motion to its eccentric amount e that bent axle 612 carries out diameter, thereupon, when the left part 614b that depresses framework 614 up and down seesawed along the pipeline direction, right part 614a (in Figure 36) moved up and down.Thereby as shown in the drawing, carrying out diameter by last lower mold 618 is 2 times of circular motion to the eccentric amount e of bent axle 612, and last lower mold 618 frontier junctures are closed edge pipeline direction and moved, can be to being pressed material 1 conveying while depressing.This drafts is by the decision of the eccentric amount e of bent axle 612, can not limit under the ground high pressure such as angle of nip.In addition, carried, can realize the walking compacting owing to press edge to depress the limit.
In addition, shown in Figure 38 (B), metal die 618 is installed into, and (double dot dash line among the figure) parallel portion 618a is parallel to each other when depressing, and (solid line among the figure) depressed framework 614 relatively and tilted slightly during unlatching.Adopt this structure, the zone is depressed in 1 circulation becomes part shown in the figure bend.
Have, by the speed control 622 of drive unit 620, the rotating speed of setting bent axle 612 is that the speed of the pipeline direction when metal die 618 is depressed is roughly consistent with the feed rate of being pressed material 1 again.Adopt this structure, the pipeline direction speed that can make metal die 618 is roughly consistent with the feed rate of being pressed material 1, can alleviate the load change of the bent axle that speed difference causes.
Figure 39 shows the ideograph of the drawing method of hot rolling slab of the present invention.Among this figure, transverse axis is represented crankshaft angles, and the longitudinal axis is represented pipeline direction speed.Adopt method of the present invention, the maximal rate of the pipeline direction of metal die changes the feed rate of being pressed material relatively.In addition, compacting beginning can be early than aforementioned maximal rate, than changing the feed rate of being pressed material midway late the time.Adopt the method,, can alleviate the load of speed difference bent axle because of being pressed the inertia force size of material.
As above-mentioned, hot rolling slab device of the present invention and drawing method have following effect, (1) can carry out depressing the walking compacting of stocking while carrying, (2) member is few, simple in structure, (3) bear compacting load and the position of sliding few, (4) can carry out the running of high load capacity and high circulation, stocking thickness is also proofreaied and correct in the position that (5) can enough simple structural accommodation metal dies.
(the 11st embodiment)
Figure 40 is the pie graph of rolling equipment with presser device of thickness of slab of the present invention.In the figure, the downstream of the presser device 710 of thickness of slab of the present invention is provided with looper 706, in its downstream finishing mill 705 is set also.The lax shape ground of looper 706 are keeping being pressed material, the sag stagnation that the pipeline speed difference of the presser device 710 of thickness of slab and finishing mill 705 can be generated.
Figure 41 is the front view of presser device of the thickness of slab of Figure 40, and Figure 42 is the cutaway view along A-A line among Figure 41.As Figure 41 and shown in Figure 42, the presser device 710 of thickness of slab of the present invention have opposed mode be configured in by press material 1 about, drive the eccentric shaft of driving up and down 715 that rotates by drive unit 720b; Around the synchronous up and down eccentric shaft 713 that drives eccentric shaft 715 rotations; One end 714a and synchronous eccentric shaft 713 be free to slide the chimeric and the other end 714b in ground rotated freely mutually be connected depress framework 714 up and down; Relatively by the opposed last lower mold of depressing up and down on framework 714 1 ends 518 that is installed in of stocking.In addition, 711 be main stand among the figure.
As shown in figure 42, by driving the rotation of eccentric shaft 715 up and down, open, close lower mold 718, when metal die 718 is depressed, by synchronous eccentric shaft 713, the pipeline direction speed of depressing framework 714 is depressed in the same manner with the pipeline direction speed of being pressed material pressed material.
Be provided with gear on the outer peripheral face of synchronous eccentric shaft 713, by the pinion 712a driven rotary that is contained on the driving shaft 712, driving shaft 712 is by drive unit 720 driven rotary.In addition, as shown in figure 42, drive unit 720a, 720b can be connected by universal coupling etc. with each, perhaps can be driven by not shown differential gear.
Have, in the present embodiment, metal die 718 and depress between the framework 714 clamping and Height Adjustment plate 724 by changing the thickness of this Height Adjustment plate 724, can be adjusted the height of metal die 718 again.
Figure 43 shows the ideograph of metal die track, and metal die 718 and the whole track of depressing framework 714 (A) are shown, and the track of metal die 718 (B) only is shown.Figure 44 illustrates the up and down displacement of metal die 718 with respect to the anglec of rotation θ of synchronous eccentric shaft.As Figure 43 and shown in Figure 44, when driving shaft 712 rotations, eccentric shaft 713 rotates round driving eccentric shaft 715 synchronously up and down, it is 2 times of circular motion to its eccentric amount e that the outer peripheral face of this synchronous eccentric shaft 715 carries out diameter, thereupon, the left part 714b that depresses framework 714 up and down seesaws in the pipeline direction, and right part 714a (in Figure 41) moves up and down simultaneously.Thereby shown in Figure 43 (B), it is that 2 times of circular motion limits to synchronous eccentric shaft 712a are opened, closed that diameter is carried out on last lower mold 718 limits.
In addition, as shown in figure 44,,, can be changed to the constant speed scope of setting by changing velocity mode at the offset E that will drive eccentric shaft 715 and in the VELOCITY DISTRIBUTION that the eccentric amount e of eccentric shaft 713 synthesizes synchronously.In addition, this drafts is by the decision of the eccentric amount e of synchronous eccentric shaft 713, can not limit that angle of nip is contour to be depressed.Have again, carry by stocking 1 compacting of can freely walking because depress by stocking 1 limit on the limit by synchronous drive device 716.
Have again, because what bear the compacting load is around the synchronous eccentric shaft 713 (two synchronous eccentric shaft) that drives eccentric shaft 715 rotations, on connecting portion 714c and synchronous drive device 716, only acting on quite little, only negative function is in the load of depressing moment on the framework 714, and, act on the moment of depressing up and down on the framework 714 and cancel out each other, so only act on especially little load.Therefore, member is few, simple structure, bear compacting load and the position of sliding few, can high load capacity and height turn round circularly.
Shown in Figure 43 (B), metal pattern 718 is mounted to, and (double dot dash line among the figure) parallel portion 718a is parallel to each other when depressing, and (solid line among the figure) tilts slightly with respect to depressing framework 714 when opening.At this moment, 1 circulation zone of depressing is the part shown in the figure bend.
As above-mentioned, the presser device of thickness of slab of the present invention has following effect, and (1) can carry out depressing while carrying the walking compacting of stocking, (2) member is few, simple structure, (3) bear compacting load and the position of sliding few, (4) can high load capacity and height turn round circularly.
(the 12nd embodiment)
Figure 45 shows the formation of presser device of the thickness of slab of the 12nd embodiment, and Figure 46 is the cutaway view along X-X line among Figure 45.Be provided with from clamping up and down by the metal die 802 of stocking 1.Metal die 802 is inner by supplying with water quench.Also can add cooling water from the outside.Metal die 802 releasably is installed on the slide block 803 by mould receiver member 804.At 2 bent axles 805 that are provided with into row by stocking flow direction (direction of advance), and bent axle 805 can be embedded in the slide block 803 by the width of stocking 1 with being free to slide.Bent axle 805 is by constituting with the bolster 805a that is connected this eccentric shaft 806b at eccentric shaft 805b two ends vertically with the chimeric eccentric shaft 805b of slide block 803, and a side bolster 805a is connected with not shown drive unit, to drive bent axle 805 rotations.Bolster 805a and the eccentric shaft 805b central shaft ground that staggers mutually is connected, and thus, eccentric shaft 805b is round the eccentric rotation of bolster 805a.
Be respectively equipped with counterweight 806 on the bolster 805a at eccentric shaft 805b two ends.Counterweight 806 relative bolster 805a are installed with staggering position of centre of gravity, and its direction that staggers is with respect to stagger 180 ° direction of direction of bolster 805a at eccentric shaft 805b.The inertia force (balance forces) that counterweight 806 off-centre are caused is roughly offset the inertia force that is produced by slide block 803, metal die 802 and mould receiver member 804, thereby can reduce vibration significantly.
Metal die 802, slide block 803, mould receiver member 804, bent axle 805 and counterweight 806 can clampings by stocking 1 and is provided with symmetrically up and down, and is integral by frame 808 and constitutes.But eccentric shaft 805b by bearing 807 free rotary ground supportings that are arranged on the slide block 803, but and bolster 805a by bearing 807 free rotary ground supportings that are arranged on the frame 808.
The following describes its action.Figure 47 shows 1 do action of slide block 803.Figure 48 show in 1 circulation slide block 803 with by the action of stocking 1.In Figure 47,1 circulation is to move from t1-t2-t3-t4-t1, depresses operation during comprising the ta-tb of t2.In Figure 48, t1-t4 is corresponding to the t1-t4 of Figure 47.In t1, slide block 803 upwards up in the middle of, be in the position that moves to rear.In t2, depressed state is shown, be in the centre position on the fore-and-aft direction.In t3, upwards middle up, be in position the most preceding on the fore-and-aft direction.In t4, be in lifting position, be in the centre position on the fore-and-aft direction.So, slide block 803 advances during t1-t2-t3 as shown by arrows, becomes maximal rate on the t2 periphery when depressing.Thereby when depressing, consistently carry by stocking 1 by pinch roll 809 and slide block 803 speed, when depressing, optimal speed is carried continuously in also enoughly depressing.And, undertaken and stagger 180 ° action of slide block movement by counterweight 806, offset the vibration that slide block 803 produces, reduced vibration.In addition, also as the flywheel function, help to reduce the power of drive unit.
(the 13rd embodiment)
The following describes the 13rd embodiment.Figure 49 is the pie graph of the presser device of present embodiment thickness of slab, and Figure 50 is the cutaway view along Y-Y line among Figure 49, shows with respect to the symmetrical structure of being pressed material 1 width center line half.As Figure 49 and shown in Figure 50, the presser device of the thickness of slab of present embodiment has is relatively pressed material arranged opposite about in the of 1, the bent axle up and down 815 that is driven in rotation, one end 813a (right-hand member among the figure) can be embedded on the bent axle with being free to slide and the other end 813b (left part) can rotate freely connection mutually depress framework 813 up and down, the horizontal guide 819 that the connecting portion 813c along continuous straight runs of framework 813 moves is depressed in guiding, pressed the material 1 opposed last lower mold of depressing up and down on the framework 813 1 end 813a 812 that is installed in relatively, be installed in the counterweight 816 on the bent axle 815 and the frame 818 of supporting crankshaft 815.Metal die 812 is installed on the framework one end 813a through Height Adjustment plate 814.
Horizontal guide 819 is oil hydraulic cylinder, crank mechanism or servo motor, along with the rotation of bent axle 815, makes connection depress the connecting portion 813c of framework 813 up and down along being pressed the material flow direction to move.
Bent axle 815 is made of the bolster 815a of the axle center combination of staggering mutually with the chimeric eccentric shaft 815b of an end 813a who depresses framework 813 with at eccentric shaft 815b two ends as shown in figure 50.Bolster 815a is supported on the frame 818 through bearing 817, and eccentric shaft 815b is supported on the framework one end 813a through bearing 817.The counterweight 816 that staggers in the axle center of its center of gravity and bolster 815a is installed on the bolster 815a in frame 818 outsides, and the direction that staggers is for to become 180 ° direction with respect to bolster 815a with the direction that staggers of eccentric shaft 815b.A side who has the bolster 815a of counterweight 816 is provided with drive unit 820, and this drive unit 820 is by control device 822 controls.
The following describes the action of present embodiment.Figure 51 shows the trajectory model figure of metal die 812, (A) is metal die 812 and the track of depressing framework 813 integral body, and the track of metal die 812 (B) only is shown.When rotary crankshaft 815, eccentric shaft 815b rotates round bolster 815a up and down, it is 2 times of circular motion to its eccentric amount e that the outer peripheral face of this eccentric shaft 815b carries out diameter, thereupon, depress framework 813 limits up and down and make the other end 813b along being pressed the material flow direction to move back and forth, the limit makes an end 813a knee-action.Therefore, shown in Figure 51 (B), last lower mold 812 limits carry out diameter be 2 times to the circular motion limit of the eccentric amount e of eccentric shaft 815b knee-action.
In addition, as shown in figure 49, the anglec of rotation according to eccentric shaft 815b, when metal die 812 is depressed, the connecting portion 813c that will be depressed framework 813 by horizontal guide 819 is along being pressed the material flow direction to move, can pass through last lower mold 812, depress when being pressed material 1 along being pressed material flow direction transferring metal mould 812.Drafts can not limited angle of nip ground and be carried out under the high pressure by the eccentric amount e decision of eccentric shaft 815b.In addition, owing to when depressing, carry by pressure materials, the compacting of can freely walking by horizontal guide 819 by pressure material 1.Have again, undertaken and stagger 180 ° action of the motion of framework one end 813a, offset the vibration that framework one end 813a produces, reduced vibration by counterweight 816.In addition, also as the flywheel function, help to reduce the power of drive unit.
As seen from the above description, the present invention makes slide block by bent axle or depresses the directly eccentric rotation in framework one end, can carry out the limit and depress the walking compacting of being pressed edge to make to be pressed material to move.In addition, by counterweight is arranged on the bent axle, can alleviate vibration, have, counterweight can alleviate the power of drive unit as the flywheel function.In addition, because under the eccentric spinning movement of bent axle, can the limit depress the metal die edge and pressed the flow direction of material to move, make metal die along by the mechanism that presses the material flow direction to move in depressing, simplified apparatus structure so there is no need to be arranged on.
(the 14th embodiment)
Figure 52 shows the longitudinal section that the presser device of the thickness of slab of the present invention the 14th embodiment constitutes, and Figure 53 is the cutaway view along Y-Y line among Figure 52.Be provided with the last lower mold 902 of clamping slab 1.The internal feed water quench of metal die 902.Also can add cooling water from the outside.Metal die 902 releasably is installed on the slide block 903 through mould receiver member 904.Slide block 903 is made of body 905 and bent axle 907, is provided with it and axially is 2 circular holes 906 of width of plate slab direction on body 905, and circular hole 906 is provided with along slab flow direction (direction of advance) Cheng Yilie.Bent axle 907 is shown in Figure 53, by the 1st 907a that is fitted to through the 1st bearing 908a in the circular hole 906, the 2nd 907b that is incorporated into its two ends with, central axis littler than the 1st 907a diameter constitutes with staggering mutually, and the 2nd 907b one side is connected with not shown drive unit.The 2nd of slide block 903 the 907b is supported on the common frame 909 through the 2nd bearing 908b up and down.The downstream of metal die 902 is provided with pinch roll 912, the transporting velocity of control slab 1.Going into side or going out side of pinch roll 912 is provided with roller roller 913, to carry stocking.In addition, among Figure 53, A represents the 1st axle center, and B represents the 2nd axle center.
Figure 54 shows the slide block pie graph, and at Figure 52, pattern ground has been represented to show instantiation by slide block in 53, and the first half of clamping slab 1 is shown.The metal die 902 of depressing slab 1 is installed on the body 905 by metal die receiver member 904.Body 905 is provided with 2 circular holes 906 that become row to be provided with along slab 1 throughput direction.Bent axle 907 is made of the 1st 907a and the 2nd less 907b of diameter that be arranged on its both sides, and the 1st 907a supported by the 1st bearing 908a, and the 2nd is supported by the 2nd bearing 908b.The inner surface of circular hole 906 expressions the 1st bearing 908a.A represents the 1st axle center, and B represents the 2nd axle center, is the center rotation with B.
The following describes its action.Figure 55 shows 1 do action of slide block 903, and Figure 56 shows the slab speed in its 1 circulation.Figure 57 shows the action of slide block 903 and slab 1 in 1 circulation.In Figure 55,1 circulation is to move from t1-t2-t3-t4-t1, depresses during comprising the ta-tb of t2.In Figure 56, the transporting velocity of slab 1 is by pinch roll 912 controls.Depress period,, in addition, be common transporting velocity consistently to carry slab 1 with the pace of slide block 903.As common transporting velocity, the slab displacement L of 1 circulation becomes the distance of depressing length L 1 length unlike the metal die shown in Figure 52 902, and the selected speed that is suitable for the device in downstream.By becoming such displacement L, length and depressing that next circulation suited with depressing how many overlap joints of length are depressed in preceding circulation.
In Figure 57, t1-t4 is corresponding to Figure 55, the t1-t4 of Figure 56.Among the t1 slide block 903 upwards up in the middle of, be in the position that moves to rear.Among the t2, depressed state is shown, is in the centre position of fore-and-aft direction.Among the t3, upwards up in the middle of, be in and move to the progressive position of fore-and-aft direction.Among the t4, be in lifting position, in the centre position of fore-and-aft direction.Slide block 903 is as above-mentioned, and direction is advanced as shown by arrows during t1-t2-t3, and the t2 periphery becomes maximal rate when depressing.Therefore when depressing, by with the speed of slide block 903 consistently, carry slabs 1 by pinch roll 912, when depressing, also can carry continuously with the most suitable speed in depressing.
(the 15th embodiment)
The following describes the 15th embodiment.Present embodiment is provided with the balancer that absorbs non-equilibrium moment on the slide block.Figure 58 is the side view of the 15th embodiment, shows the first half of symmetrical structure up and down, and Figure 59 shows along the cutaway view of X-X line among Figure 58, and Figure 60 shows along the cutaway view of Y-Y line among Figure 58.Shown in Figure 58, slide block 903 is made of 1 bigger bent axle 917, has the structure that is absorbed the non-equilibrium moment due to loading by the balancer 914 that uses bent axle 917.
As Figure 58, shown in Figure 59, be provided with the metal die 902 of clamping slab 1, this metal die 902 releasably is installed on the body 905 by mould receiver member 904.The axle center is combined with the 2nd 907b with staggering on the two ends of the 1st 907a of bent axle 907.The 1st 907a is by the clutch shaft bearing 908a supporting that is arranged on the frame 909, and the 2nd 907b is shown in Figure 52,53, by the 2nd bearing 908b supporting that is arranged on the frame 909.A represents the 1st axle center, and B represents the 2nd axle center.The front end of one side's the 2nd 907b is provided with gear coupling 916, drives the 2nd 907b rotation by not shown drive unit.
As Figure 58, shown in Figure 59, balancer 914 has bent axle 917, bent axle 917 by the 1st 917a and be arranged on the 1st 917a two ends, diameter constitutes than its little the 2nd 917b, the 1st axle center a and the 2nd axle center b are off-centre.The 1st 907a supported by the 1st bearing 908a, and the 1st bearing 908a is fixing by peripheral ring 919.The 2nd 907b supported by the 2nd bearing 908b, and the 2nd bearing 908b is fixed on the supporting device 915.Supporting device 915 usefulness bolts are installed on the body 905.The front end of one side's the 2nd 907b is provided with gear coupling 916, is driven by not shown drive unit.In addition, a represents the 1st 917a institute axle center, and b represents the axle center of the 2nd 917b.
The following describes its action.By 903 pairs of slabs of slide block 1 carry out depress the action identical with the 1st embodiment.But because bent axle 907 is provided with 1 up and down respectively, the reaction force when depressing slab 1 can produce non-equilibrium moment.Balancer 914 moves in the mode of offsetting non-equilibrium moment.
(the 16th embodiment)
The following describes the 16th embodiment.Figure 61 shows the longitudinal section that the presser device of the thickness of slab of the 16th embodiment constitutes, and Figure 62 is the cutaway view along X-X line among Figure 61.With Figure 52,53 identical symbolic representations have identical function.Though clamping slab 1 is the metal die 902 and the slide block 903 that are provided with of either party up and down in the present embodiment, with slab 1 be separated by, with these metal die 902 opposite sides on also be provided with support unit 910, depressing is to carry out from one-sided.Action and front and back actions and the 14th embodiment shown in Figure 57 carried out by depressing of carrying out of slide block 903 is identical, but the thickness reduction of depressing minimizing.And in the forward motion when depressing, produce resistance to carrying, thereby on the drive unit of slide block 903 and pinch roll 912, bear very heavy owing to produce frictional force between slab 1 and the support unit 910.Yet its structure becomes simply, has also reduced manufacturing cost.
From the above, the present invention because be provided with metal die and when depressing metal die before and after the slide block of action, can carry slab while depressing, can realize continuous rolling operation.In addition, by being provided with a plurality of bent axles, can make the metal die keeping parallelism.Also be provided with and depress, also can make the metal die keeping parallelism with bent axle and balance bent axle.Can easily carry out the inside cooling or the external refrigeration of metal die, the service life of improving metal die.Have again, but depress also more than the attenuate 50mm at every turn.Can also make the device overall compact.
(the 17th embodiment)
Figure 63 shows the pie graph of the present invention the 17th embodiment.As shown in the drawing, the presser device of thickness of slab of the present invention has stand facing each other up and down 1 pair of metal die 1002 being provided with and be arranged on each metal die 1002, make the pendulous device 1010 of metal die 1002 front and back towards slab 1 of mode with clamping slab 1.
Shown in Figure 63, pendulous device 1010 has slide block 1012, and this slide block 1012 has along the oblique setting of slab feeding direction and is spaced from each other 1 couple of circular hole 1012a of L at interval, and the eccentric shaft 1014 of sideway swivel in circular hole 1012a.
Eccentric shaft 1014 is the 1st 1014a rotating in circular hole of center by the central axis A with circular hole 1012a and is that the 2nd 1014b that rotate at the center constitutes with the central axis B that to separate the 1st 1014a be eccentric amount e.The 2nd 1014b by not shown bearing rotating support, and by not shown rotating driving device driven rotary.
The inside of metal die 1002 is by supplying with water quench.Also can apply cooling water from the outside.Metal die 1002 releasably is installed on the slide block 1012 through metal die receiver member 1011.The downstream of metal die 1002 is provided with pinch roll 1016, the transporting velocity of control slab 1.Going into side or going out side of pinch roll 1016 is provided with roller roller 107, to carry stocking.In addition, among Figure 63, A represents the 1st axle center, and B represents the 2nd axle center.
(the 18th embodiment)
Figure 64 shows the pie graph of the present invention the 18th embodiment.In the figure, the relative slab throughput direction of 1 couple of circular hole 1012a of slide block 1012 vertically is provided with, thereby 1 pair of also relative slab throughput direction of eccentric shaft 1014 vertically is provided with.Other structures are identical with Figure 63.
The following describes its action.Figure 65 shows 1 do action of slide block 1012, and Figure 66 shows the slab speed in this 1 circulation.In Figure 65,1 circulation is to move from t1-t2-t3-t4-t1, depresses operation during comprising the ta-tb of t2.In Figure 66, the transporting velocity of slab 1 is by pinch roll 1016 controls.During the compacting of depressing slab 1 by metal die 1002 (during depressing), the above-mentioned speed of slab 1 is synchronous with the speed of being sent slab 1 by metal die 1002, leave at slab 1 during the non-compacting of metal die 1002, the circulation rate of speed that control slab 1 is above-mentioned to obtain stipulating, and send slab with certain speed, that is, and during depressing, consistently carrying slab 1 with the pace of slide block 1012, is common transporting velocity beyond this.As common transporting velocity, the slab displacement of 1 circulation is for depressing the distance of length no longer than metal die 1002, and in addition, selection is suitable for the speed of the device in downstream.By adopting such displacement, how much overlap joint ground carries out suitable depressing to the length of depressing of last circulation with the length of depressing that circulates next time.
In the t1 of Figure 65 and Figure 66, slide block 1012 rises in the middle of the top, be in the position of moving to rear.In t2, depressed state is shown, be positioned at the centre position of fore-and-aft direction, in t3, upwards up in the middle of, be positioned at the progressive position at the rear of fore-and-aft direction.In t4, be positioned at lifting position, be in the fore-and-aft direction centre position.So, slide block 1012 advances during t1-t2-t3 as shown by arrows, and the t2 periphery when depressing is in maximal rate.Therefore when depressing,, can when depressing, carry continuously with the most suitable speed in depressing owing to consistently carry slab 1 by pinch roll 1016 with the speed of slide block 1012.
Adopt the structure of the invention described above, because 2 eccentric shafts 1014 that rotate in 1 couple of circular hole 1012a of slide block 1012 are oblique or setting vertically along the slab throughput direction, compare with the occasion that be arranged in parallel along the pipeline direction, can shorten the length of pipeline direction necessity.Particularly, shown in Figure 63, during oblique the setting, can make act on 2 eccentric shafts to depress power even, can promptly shorten the length of pipeline direction, make the load equalization on each eccentric shaft again.In addition, shown in Figure 64, when being provided with perpendicular to the slab transport direction, can must be bigger with the load setting on the inboard eccentric shaft, make outside eccentric shaft miniaturization.
From the above, the slide block of front and back action when the present invention is provided with metal die and depresses metal die, but carry slab while depressing, can realize rolling continuously operation.In addition, can shorten the necessary length of pipeline direction, and can depress thickness of slab in the limit with carrying the high reduction ratio in slab limit.
(the 19th embodiment)
Figure 67 shows the pie graph of presser device of the thickness of slab of the 19th embodiment.Trigger squeeze has the last lower mold 1102 that material 1 is pressed in clamping, depresses the frame 1104 of hydraulic cylinder 1103 and this hydraulic cylinder 1103 of supporting of this metal die 1102.Being pressed the thickness setting of material 1 is T, is that the occasion of t is illustrated to it being pressed into thickness.The length of metal die 1102 length directions becomes than the short size of width of being pressed material 1 as L.Hydraulic cylinder 1103 is by the piston rod 1103a that is connected with metal die 1102, and the cylinder body 1103c of the piston 1103b of pushing piston bar 1103a and reception piston rod 1103a and piston 1103b constitutes.Also be provided with the not shown device of pressurized fluid being supplied with hydraulic cylinder.Present embodiment illustrates and has 2 pairs situation on the metal die 1102, and 2 pairs of metal dies 1102 are provided with at interval with 2L along its length.
The following describes its action.
Situation when Figure 68 shows 2 pairs of metal dies 1102 and depresses simultaneously.(A) illustrate before step depress and state that this step begins to depress.(B) state of depressing from (A) state is shown.(C) illustrate by (B) state and leave metal die 1102, will be pressed the mobile along its length 2L of material 1, metal die 1102 is in the appearance of depressed state.(C) be the state that turns back to (A).By carrying out (A)-(C) repeatedly, thickness T can be pressed into thickness t.And,, can realize depressing at a high speed owing to depress simultaneously with 2 pairs of metal dies 1102.
Figure 69 shows the situation that action is staggered in time and moved of depressing of 2 pairs of metal dies 1102.(A) step is depressed the state that this step begins to depress before the expression.(B-1) state of being depressed by the metal die 1102 in the moving direction the place ahead of being pressed material 1 from the state of (A) is shown.(B-2) state of being depressed by the metal die 1102 at rear from (B-1) state is shown.(C) illustrate from the state of (B-2) and leave metal die 1102, will be pressed material 1 move 2L, 2 pairs of metal dies 1102 be in the appearance of depressed state.(C) be the state that turns back to (A).By carrying out (A)-(C) repeatedly, thickness T can be pressed into thickness t.Time this moment extends, but depresses when depressing when metal die 1102 needed power are Figure 68 half, and thereupon, the capacity of drive unit also can reduce by half, and has reduced cost.
(the 20th embodiment)
The following describes the 20th embodiment.Figure 70 is the pie graph of presser device of the thickness of slab of the 20th embodiment, and Figure 71 is the view that its action is shown.In the present embodiment, be provided with 3 pairs of metal dies 1102, they are spaced apart 3 times of length 3L to metal die 1102 length L along the moving direction of being pressed material 1, and other are identical with the 19th embodiment shown in Figure 67.Action when Figure 71 shows 3 pairs of metal dies 1102 and depresses simultaneously.Depress in the step before Figure 71 (A) illustrates and begin depressed state in this step.(B) state of depressing from the state of (A) is shown.(C) illustrate from the state of (B) and leave metal die 1102, will be pressed the mobile along its length 3L of material 1, metal die 1102 will be in the appearance of depressed state.(C) return the state of (A).By carrying out (A)-(C) repeatedly, thickness T can be pressed into thickness t.In addition, owing to 3 pairs of metal dies 1102 are depressed simultaneously, so can depress at a high speed.Have, when order was depressed 3 pairs of metal dies 1102, (B) step was divided into for 3 steps, at first, depressed with the metal die 1102 of front, then depressed with middle metal die 1102, depressed with the metal die 1102 of tail end afterwards again.Thus, the time of depressing is spun out, but the driving power of metal die can be 1 pair capacity, can reduce cost.
In an embodiment, the metal die situation with 2 pairs and 3 pairs has been illustrated, even but have N can realize the segmentation compacting too metal die.
As can be known above-mentioned, the present invention can reduce the weight of each metal die and its drive unit by a plurality of metal die arranged in series that length is short, can carry out depressing and depressing greatly of high speed.Thus, material along its length flows, and also can reduce the driving power of metal die.In addition, with the action of staggering of a plurality of metal dies, can reduce the driving power of metal die significantly.
(the 21st embodiment)
Figure 72 shows the pie graph of the presser device of present embodiment thickness of slab.In Figure 72, the presser device of thickness of slab is made of N the trigger squeeze 1212 that is arranged in the frame 1211.N is 4 in the following description, but is not limited in this.Trigger squeeze 1212 by clamping stocking 1 up and down 1 pair constitute, in series dispose 4 along stocking 1 flow direction.Trigger squeeze 1212 is made of the pressure setting 1214 of metal die 1213 and this mould of pushing.Show the example that uses hydraulic cylinder 1214 as pressure setting 1214, but also can use other devices.In regular turn figure number is appointed as 1201-1204 for metal die 1213 from upstream side.Metal die 1213 is L along the length of stocking flow direction, and the mill length of 4 metal dies 1213 is 4L.The side of going into of frame 1211 is provided with pinch roll 1215, according to depressing of trigger squeeze 1211 stocking 1 is sent.Hydraulic cylinder 1214 and pinch roll 1215 are by control device 1216 controls.
The following describes the action of the 21st embodiment.In the present embodiment, stocking 1 is by the thickness of downstream trigger squeeze 1212 order reduction regulations.Figure 73 is the action specification figure of the 21st embodiment.In Figure 73 and its later figure, the first half of stocking 1 is shown, trigger squeeze 1212 equally also only illustrates upside.Figure 73 (A) illustrates order and depresses metal die 1204 to 1201, thereby depresses 4 times of states to the length 4L of metal die length L scope, (B) state of depressing next 4L scope is shown.Shown in (A), by pinch roll 1215 stocking 1 is delivered to metal die 1204-1201 below, for after depressing according to 1 of the order of metal die 1204 to 1201 and restoring, next metal die is depressed again, must be depressed by 1 metal die.Thus, 1212 actions of 2 trigger squeezes can not be arranged simultaneously, so load diminishes.And corresponding hydraulic cylinder up and down 1214 moves simultaneously.In case metal die 1201 depress the end of job, shown in (B), send 4L by pinch roll 1215, begin depressing of next 4L scope.
(the 22nd embodiment)
The following describes the action of the 22nd embodiment.In the present embodiment, stocking 1 is whenever sent L just sequentially depress each metal die 1201-1204.Each metal die 1201-1204 is risen by the thickness that preceding metal die is depressed to depress Δ t.When pinch roll 1215 was sent L, each metal die 1201-1204 depressed on sequentially each 1 ground.State when Figure 74 (A) illustrates 1 of stocking and delivers to metal die 1201 belows.At this moment, metal die 1202-1204 is empty gives as security.(B) be that stocking 1 is delivered to the state under the metal die 1202.Among a, depressing Δ t by metal die 1201, among the b, is to depress Δ t again from depressing Δ t state, becomes 2 Δ t and depresses.As c, 1203,1204 empty signatures of metal die shown in the d.
Figure 75 (A) shows the state that stocking 1 is delivered to metal die 1203 belows.Among a, metal die 1201 is depressed Δ t.Among the b, metal die 1202 is pressed down to the level of 2 Δ t from the level of Δ t.Among the c, metal die 1203 is pressed down to the level of 3 Δ t from the level of 2 Δ t.Metal die 1204 is empty the signature shown in d.Figure 75 (B) shows the state that stocking 1 is delivered to metal die 1204 belows.
Figure 76 illustrates the state of front end of sending the stocking 1 of L length from metal die 1204.Among a, metal die 1201 is depressed Δ t.Among the b, metal die 1202 is pressed down to the level of 2 Δ t from the level of Δ t.Among the c, metal die 1203 is pressed down to the level of 3 Δ t from the level of 2 Δ t.Among the d, metal die 1204 is pressed down to the level of 4 Δ t from the level of 3 Δ t.Like this, become depressing of planned value 4 Δ t.Because each trigger squeeze order and only 1 action simultaneously, the whole required load of press device is few, can make facility compact.
In the above-described embodiments, 1 of stocking advances, as retreats once more and depress, and can obtain drafts at double.
As described above as can be known,, and do not make the trigger squeeze action more than 2 simultaneously with respectively depressing length,, make device miniaturization so whole load of trigger squeeze equipment reduced owing to the present invention shortens to depress a plurality of trigger squeezes in proper order.
(the 23rd embodiment)
Figure 77 shows the pie graph of presser device of the thickness of slab of the 23rd embodiment.Along by the flow direction of stocking 1,, be provided with milling train 1303 in the downstream be provided with walking trigger squeeze 1302 near upstream side.Walking trigger squeeze 1302 have depress by the metal die 1302a of stocking 1 and depress this metal die 1302a depress cylinder 1302b, and along being moved back and forth metal die 1302a by the stocking flow direction and depressing the conveying cylinder 1302c of cylinder 1302b.Milling train 1303 is roughing mill and finishing mill or finishing mill.Between walking trigger squeeze 1302 and milling train 1303, be provided with rolling side speed in walking trigger squeeze 1302 sides and adjust roller 1304, adjust roller 1305 and be provided with milling train side speed in milling train 1303 sides.Speed is adjusted roller 1304,1305 and is used pinch rolls or measuring roller etc., adjust carried by the speed of stocking 1 time also carry out mensuration by length.Walking trigger squeeze 1302 and rolling side speed are adjusted between the roller 1304, milling train 1303 and milling train side speed are adjusted between the roller 1305 and is provided with conveying by the rollgang 1306 of stocking 1.
Rolling side speed adjusts roller 1304 and milling train side speed is adjusted the guide roller 1307 that is provided with outer weekly interval m between the roller 1305, m between constituting by the buckled zone of stocking 1 between this two guide roller 1307.The m formation is dug underground recess between buckled zone, is provided with to have conveying by the rise and fall roller 1308 of the roller of stocking 1, by lift cylinders 1309 liftings that are located at its underpart.M between buckled zone is provided with low bit detector 1310a that detects the macrobending position and the high bit detector 1310b that detects little bending position.Control device 1311 is adjusted the crooked data of length data, low bit detector 1310a and high bit detector 1310b that roller 1305 passes through according to adjust roller 1304 and milling train side speed from rolling side speed, and control walking trigger squeeze 1302, rolling side speed adjusts roller 1304 and milling train side speed is adjusted roller 1305 and lift cylinders 1309.
The following describes its action.At first, make rise and fall roller 1308 be upper limit position by lift cylinders 1309, promptly the roller position of rise and fall roller 1308 is in after the position of guide roller 1307, makes 1302 actions of walking trigger squeeze, depresses by stocking 1 and sends into milling train 1303.In milling train 1303, begin rolling continuously.In a single day entered milling train side speed by stocking 1 and adjust roller 1305, just rise and fall roller 1308 is dropped to crooked lower position.Meanwhile, the calculated value of the crooked data of the length data of roller 1305, low bit detector 1310a and high bit detector 1310b is adjusted in input by rolling side speed adjustment roller 1304 and milling train side speed, obtain and pass through length difference, this difference is the circulation of 1 of trigger squeeze of walking or a plurality of cycle period, 2 poor by length, adjust roller 1304,1305 adjustment of milling train side speed adjustment roller by the transporting velocity of stocking 1 by rolling side speed, the increases and decreases of control interior period specified time limit etc., making by length difference becomes 0.This adjustment of 3 is that any or wantonly 2 combination or 3 adjust simultaneously.All the time monitor the data of low bit detector 1310a and high bit detector 1310b, check that flexibility whether in predetermined scope, when the scope that is in is outer, adjusts roller 1304,1305 by each speed and be adjusted in the scope.When being adjusted roller 1304 near mill speed by the rear end of stocking 1, operate lift cylinders 1309 once more, make the position of rise and fall roller 1308 become the position of guide roller 1307.
Figure 78 (A) show rolling side speed adjust the roller input side by stocking speed, (B) show the speed that milling train side speed is adjusted roller 1305 outlet sides.Make the walking of walking trigger squeeze 1302, adjusted roller 1304 by the transporting velocity of stocking 1 by rolling side speed and adjust, send into milling train 1303, adjusted roller 1305 by the speed of stocking 1 by milling train side speed and adjust.(A) in, during depressing, by the most suitable speed of carrying cylinder 1302c decision to depress, and rolling side speed adjustment roller 1304 is adjusted to this speed.In case depress end, the low speed in order to recover to depress, transporting velocity is risen after, after dropping to common transporting velocity and keeping this speed, be reduced to the speed of depressing of circulation next time.Carry metal die 1302a that cylinder 1302c produces and the action of depressing cylinder 1302b to be,, depressing during neutralization of short duration after depressing after moved, carry out return action by the flow direction of stocking 1 before depress.The adjustment of the transporting velocity of (metal die 1302a leaves by during the stocking 1) during beyond rolling side speed adjustment roller 1304 is depressed.Milling train side speed is adjusted roller 1305 shown in (B), adjusts milling train 1303, and it is carried by stocking 1 with uniform transporting velocity as far as possible.
(the 24th embodiment)
The following describes the 24th embodiment.Figure 79 shows the pie graph of presser device of the thickness of slab of the 24th embodiment.The same parts of the symbolic representation identical with Figure 77.In the present embodiment, be different with the walking trigger squeeze 1302 that makes Figure 77 for stopping to carry the trigger squeeze that begins the mode that stops 1302 during depressing, and other are identical by stocking 1.Because transporting velocity adjustment aspect is very different, therefore be illustrated with reference to Figure 80.Figure 80 (A) show by trigger squeeze 1302 by the transporting velocity of stocking 1.1 circulation of 1 cyclic representation trigger squeeze 1302.Transporting velocity is 0 during depressing.In case depress end, regain time lag, speed is sharply risen, sharply reduce afterwards, become common speed.When near the depressing of next time circulation, speed is near 0.Adjust in the roller 1305 in milling train side speed, absorb by bending during the rapid velocity variations shown in (B), make it become even velocity as far as possible, and will be sent into milling train 1303, but velocity variations greatly then influences the variation of speed by stocking 1.Like this, the presser device of the thickness of slab of the present invention trigger squeeze 1302 of not only walking also can be suitable for even begin the trigger squeeze of the mode that stops.
As described above as can be known, the present invention is by adjusting the transporting velocity by stocking that flows in upstream trigger squeeze and downstream milling train, can implement rolling with milling train of depressing of trigger squeeze simultaneously.
(the 25th embodiment)
Figure 81 shows the pie graph of presser device of the thickness of slab of the 25th embodiment.Be provided with the last lower mold 1402 of clamping stocking 1, metal die 1402 by crank device 1403 knee-actions to depress stocking 1.Metal die 1402 and crank device 1403 move back and forth along the stocking flow direction by moving back and forth crank device 1404.Crank device 1403 and reciprocating motion crank device 1404 are synchronized with the movement.1402a represents the upper metal mould, and 1402b represents the lower metal mould, and 1403a represents the top crank device, and 1403b represents the lower crank device, and 1404a represents that top moves back and forth crank device, and 1404b represents that the bottom moves back and forth crank device.Pinch roll 1405 is arranged on the front and back of metal die 1402, and the transporting velocity of control stocking 1 is by not shown control device control.Rollgang 1406 be arranged on pinch roll 1405 near, to carry stocking 1.Kink 1407 is arranged on the downstream of the pinch roll 1405 and the rollgang 1406 in metal die 1402 downstreams, makes stocking 1 survive shell-like ground absorption length, adapts with the processing speed with the stocking 1 of follow up device.In addition, the conveying device of technical scheme 56 is equivalent to pinch roll 1405.
Figure 82 is the key diagram of the crank-operated of crank device 1403,1404.Figure 83 is the view that the action of the crank device 1403 of Figure 82 is launched with degree in crank angle θ, and Figure 84 is the reciprocating motion crank device 1404 according to Figure 82, the speed along stocking 1 flow direction of metal die 1402, the view of representing with degree in crank angle θ.Among Figure 82, c represents the bottom dead centre of top crank device 1403a, or the top dead-centre of expression lower crank device 1403b, and from comprising b that this c orders in the scope of the degree in crank angle θ of c1, metal die 1402 is depressed stocking 1.The speed of the stocking flow direction of metal die 1402 is shown in Figure 84 during depressing, and the speed that b is ordered represents that with Vc the c spot speed is Vc, and the speed that c1 is ordered is Vc1.
Figure 85 shows the transporting velocity of 1405 pairs of stockings 1 of pinch roll.Vb, Vc, Vc1 represent the speed of the metal die 1402 shown in Figure 84.Pinch roll 1405 with crank device 1403 carry out depress during, move back and forth under the same speed of translational speed that 1404 pairs of metal dies of crank device 1402 produce, carry stocking 1.That is to say, when beginning to depress equally, become Vb with metal die 1402, arrive maximum speed Vc after, become and depress end speed Vc1, afterwards, under speed alone, what become next time depresses commencing speed Vb.From depress commencing speed Vb to next time depress commencing speed Vb during as 1 circulation of pinch roll, the displacement of stocking 1 is as L between this 1 circulation, control pinch roll 1405, what make that L becomes the metal die 1402 shown in Figure 81 effectively depresses length L below 0.Thus, in 1 circulation of pinch roll 1405 (1 circulation of it and crank device 1403 is with long), stocking 1 length L that is depressed.
In Figure 81, (A) a state of order of expression Figure 82, (B) the expression depressed state of ordering to c1 from the b point of Figure 82 (C) is represented the state that the d of Figure 82 is ordered.By carrying out (A) repeatedly, (B), state (C), carry out length is depressing of L at every turn.
(the 26th embodiment)
The following describes the 26th embodiment.Figure 86 shows the pie graph of the 26th embodiment.Among the 26th embodiment, have 2 dimension crank devices 1408, not only also drive metal die 1402 along the vertical direction along fore-and-aft direction (throughput direction is reverse with it).That is, 2 dimension crank devices 1408 have the mechanism that crank device 1403 and 1404 merging of reciprocating motion crank device of the 25th embodiment are held.2 the dimension crank devices 1408 undertaken by eccentric support rotary body 1409 about, seesaw.Action is identical with the action of crank device 1403 and reciprocating motion crank device 1404, and the amplitude of above-below direction is identical with the amplitude of fore-and-aft direction.Identical with the 25th embodiment except crank device 1408.
(the 27th embodiment)
The following describes the 27th embodiment.Figure 87 is the pie graph of the crank-type width trigger squeeze of the 27th embodiment.Be provided with clamping stocking 1, in the width both sides width metal die 1412 be set, width metal die 1412 is depressed stocking 1 by width crank device 1413 broad ways.Width metal die 1412 and width crank device 1413 move back and forth along the stocking flow direction by moving back and forth width crank device 1414.Width crank device 1413 and reciprocating motion width crank device 1414 synchronization actions.Pinch roll 1415 is arranged on the front and back of width metal die 1412, and the transporting velocity of control stocking 1 is by not shown control device control.Rollgang 1416 be arranged on pinch roll 1415 near, carry stocking 1.In addition, not shown, kink 1417 is arranged on the downstream of the pinch roll 1415 and the rollgang 1416 in width metal die 1412 downstreams, and stocking 1 is made the kink shape with absorption length, and adapts with the processing speed of the stocking 1 of follow up device.In addition, the reciprocator of technical scheme 58 is equivalent to move back and forth width crank device 1414, the suitable pinch roll 1415 of conveying device.Action is roughly the same with the 25th embodiment.
In the explanation of the 25th and the 27th above embodiment, reciprocator as crank device in addition explanation, but also can move back and forth with hydraulic cylinder or snap bolt etc.
As described above as can be known, when the present invention depresses metal die with crank device, synchronously carry stocking, have following effect by the reciprocating speed of conveying device when depressing.
(1) because the stocking transporting velocity does not have big variation, so do not need the conveying device of jumbo pinch roll or rollgang etc.
(2) owing to not needing the such heavy weight slide block of flywheel-type, so do not need jumbo pendulous device.
(3) relevant with (2), reduced vibration.
(4) by and use kink, can be easy to serialization with follow up device.
(the 28th embodiment)
Figure 88 shows the pie graph of presser device of the thickness of slab of the 28th embodiment.Figure 89 shows the action of the 28th embodiment.Be provided with the metal die 1502 up and down of clamping stocking 1, metal die 1502 is fixed to the eccentric motion portion of the bent axle 1504 of crank device 1503.Crank device 1503 has the eccentric motion portion that bent axle 1504 drives, and makes metal die 1502 knee-actions fixed on it, depresses stocking 1, simultaneously, moves back and forth at the stocking flow direction.1502a represents the upper metal mould, and 1502b represents the lower metal mould, and 1503a represents the top crank device, and 1503b represents the lower crank device.Pinch roll 1505 is arranged on the upstream side of metal die 1502, and the transporting velocity of control stocking 1 is by controller 1510 controls.In addition, also can be arranged on the downstream of metal die 1502.Shown in Figure 89, rollgang 1506 is arranged near the upstream side of pinch roll 1505 and the downstream of metal die 1502, carries stocking 1.Kink 1507 is arranged on the downstream of the rollgang 1506 in downstream, and stocking 1 is made the kink shape with absorption length, and corresponding with the processing speed of the stocking 1 of follow up device.
In Figure 88, on crank device 1503, be provided with force cell 1511, to measure the power of depressing that is applied on the metal die 1502.In addition, be provided with crankshaft rotating sensor 1512, the revolution of metering bent axle.The continuous data of force cell 1511 and crankshaft rotating sensor 1512 is delivered to controller 1510.
Pinch roll 1505 is provided with pinch roll turn-sensitive device 1513, the revolution of metering pinch roll 1505, and transport to controller 1510.Pinch roll 1505 is provided with the hydraulic cylinder 1514 of depressing stocking 1, the switching valve 1515 of the pressurized fluid direction conversion of hydraulic cylinder 1514 will be supplied with, supply with the pump 1516 of pressurized fluid, pressure-reducing valve 1517 that the pressure that pump 1516 is exported reduces pressure and the fuel tank 1518 of storing hydraulic oil.Pressure-reducing valve 1517 makes the power of depressing of 1505 pairs of stockings 1 of pinch roll be changed to P1 and P2 by controller 1510 controls.
The following describes its action.The action of the bent axle that Figure 89 shows crank device 1503 (is called 1 circulation during this period) between 1,504 one refundings crank device 1503 and metal die 1502.Figure 90 shows the anglec of rotation and the relation of depressing of the bent axle 1504 of crank device 1503.Action to top crank device 1503a is illustrated.The action of the relative top of the action crank device 1503a of lower crank device 1503b is opposite up and down, but forward-reverse (mobile being called of side advances downstream) is identical.A point expression metal die 1502 is in top dead-centre, and the expression of c point is in bottom dead centre, and b point represents to be in upstream point, and the d point represents to be in point downstream.The initial point of 1 circulation is the b point, and the interval of bcd represents between Qianjin District that the interval of dab is represented between back-off region.Begin depressing of stocking 1 from S, finish at the R place to depress through c.Figure 89 (A) expression b dotted state, (B) expression c dotted state, (C) expression d dotted state.The displacement of the metal die of 1 circulation of distance expression of ordering from the b point to d.And in 1 circulation, the displacement L of stocking 1 is no more than length L 0 ground of effectively depressing of metal die 1502 throughput directions and depresses really.
Figure 91 shows the continuous data of the controller 1511 shown in Figure 88, crankshaft rotating sensor 1512, pinch roll turn-sensitive device 1513 and according to these data, with controller 1510 control pressure-reducing valves 1517, adjusts the data that pinch roll 1505 is depressed power.(a) expression metal die 1502 launches Figure 90 with respect to the displacement or the speed of crankangle with degree in crank angle.Rolling scope R-S is an oblique line portion.(b) be the peak value that rolling scope R-S takes place in the force cell value, become the R-S centre.(c) feed rate of expression pinch roll 1505, speed between rolling scope R-S is the speed with speed between the R-S of rolling stocking 1 hoisting velocity plus-minus metal die 1502, when being positioned at metal die 1502 upstream sides as the pinch roll 1505 of Figure 88, in order to proofread and correct the speed that promotes at upstream side, by transporting velocity deduct upstream side to hoisting velocity, when being positioned at the downstream of Figure 90, in order to proofread and correct the speed that the downstream promotes, with the hoisting velocity and the transporting velocity addition of side towards downstream.
(d) controller 1510 being shown is detected by crankshaft rotating sensor 1512 and depresses starting point, or detect the R point of depressing load rise by force cell 1511, the power of depressing of pinch roll 1505 is reduced to than its low P2 from P1, and turns back to original P1 situation depressing end of job point S place.By the power of depressing of reduction pinch roll 1505 like this,, also can prevent to damage stocking 1 and damage rolling device or pinch roll 1505 even the speed that deducts aggregate velocity and pinch roll 1505 after the hoisting velocity by the speed of metal die 1502 is not simultaneously.Also can equip any of force cell 1511 and crankshaft rotating sensor 1512 this moment.
(e) controller 1510 is detected operation starting point R t morning under the specific pressure by crankshaft rotating sensor 1512 angle is shown, the power of depressing of pinch roll 1505 of naming a person for a particular job thus is reduced to the lower P2 than P1, and is depressing the situation that end of job point S place turns back to original P1.So, by reduce the constraint of 1505 pairs of stockings 1 of pinch roll before metal die 1502 is nipped stocking 1, nipping of 1502 pairs of stockings 1 of metal die can not take place to carry out slippingly really.And same with (d), even the speed of aggregate velocity after the speed by metal die 1502 deducts hoisting velocity and pinch roll 1505 is not simultaneously, also can prevent to damage stocking 1 and damage rolling device or pinch roll 1505.
(the 29th embodiment)
Figure 92 shows the 29th embodiment.The 28th embodiment shown in the relative Figure 88 of the 29th embodiment be the downstream that pinch roll 1505 is configured in metal die 1502, and other is identical with the 28th embodiment.When so being in the downstream, when depressing with metal die 1502, the transporting velocity in the pinch roll 1505 becomes the speed of metal die and the aggregate velocity of the hoisting velocity addition of the stocking of depressing 1.
(the 30th embodiment)
Figure 93 shows the 30th embodiment.The 30th embodiment is the combination with the 29th embodiment shown in the 28th embodiment shown in Figure 88 and Figure 92.
As described above as can be known and since the present invention with crank device while depressing the transferring metal mould, reduced metal die depress in the power of depressing of pinch roll, so have following effect.
(1) because the stocking transporting velocity does not have big variation, so do not need conveying devices such as jumbo pinch roll or rollgang.
(2) owing to not needing the such heavy weight slide block of flywheel mode, so do not need jumbo pendulous device.
(3) acceleration and deceleration of (weight) slab can be positively grown, feed can be correctly given.
(4) when compacting, though by metal die to stocking send to and by pinch roll to stocking send the generation speed difference to, can not apply excessive load on the device yet, prevented from stocking, to take place slippage.
(5) skidding of stocking and metal die becomes minimum.
(the 31st embodiment)
Figure 94 shows the pie graph of presser device of the thickness of slab of embodiment.Be provided with clamping by the metal die 1602a that presses material (slab) 1 to dispose up and down, 1602b, each metal die 1602a, 1602b is fixed on the eccentric motion portion of bent axle 1604, bent axle 1604 is contained in and is separately positioned on this metal die 1602a, and the crank device 1603a on the 1602b is on the 1603b.Make the metal die 1602a that is fixed in the eccentric motion portion, 1602b moves up and down and depresses when being pressed material 1, is being pressed the material flow direction to move back and forth.
At metal die 1602a, the input side and the outlet side of being pressed material 1 of 1602b are respectively equipped with input side conveying device 1605 and outlet side conveying device 1606, each conveying device 1605,1606 by the close metal die 1602a of order, the feeding roller 1607 of 1602b, pinch roll 1608 and rollgang 1609 constitute.Feeding roller 1607 is pressed the roller of material 1 and the hydraulic cylinder of this roller of lifting to constitute by carrying, and can adjust the delivery head of being pressed material 1.In addition, feeding roller 1607 is at metal die 1602a, and the upstream and downstream of 1602b is provided with 1 respectively, but also can be respectively equipped with many.Pinch roll 1608 is pressed the roller of material 1 upper and lower settings and the hydraulic cylinder of depressing each roller to constitute by clamping, carry out depressing by pressure material 1 and by upstream side pinch roll 1608 with method of clamping, push metal die 1602a, among the 1602b and by downstream pinch roll 1608, from metal die 1602a, the action that 1602b pulls out.
Rollgang 1609 is by being pressed the support 1609a of material 1 flow direction stretching, extension, be configured in a plurality of rollgang 1609b on this support 1609a, the lifting guide 1609c of guide support 1609a knee-action and the lift cylinders 1609d that makes support 1609a knee-action constitute.Lifting promptly can be that parallel lifting also can be a method of tilting (inversion method).Controller 1610 control crank device 1603a, 1603b, feeding roller 1607, pinch roll 1608 and rollgang 1609.
The following describes its action.Owing to import in advance and pressed the thickness of material 1 and the drafts of press in the controller 1610, so according to these data, the delivery head of feeding roller 1607, pinch roll 1608 and the rollgang 1609 of input side conveying device 1605 is set at, deduct 1/2 the height of being imported of being pressed material 1 thickness from press center line (it is the intrinsic height of press), with the feeding roller 1607 of outlet side conveying device 1606, the delivery head of pinch roll 1608 and rollgang 1609 is set at from the press center line and deducts 1/2 the height of being pressed material 1 thickness after rolling.And the upside roller of the pinch roll 1608 of input side and outlet side has risen to the upper limit, last lower mold 1602a, and 1602b is also opened to limit.Under this state, will be pressed material 1 to be input to metal die 1602a, the input side of 1602b, simultaneously by last lower mold 1602a, 1602b depresses and sends by preceding line direction (being pressed material 1 flow direction) motion.
Figure 95 shows the press knee-action and moves back and forth the action of 1 circulation.(A) initial state of 1 circulation is shown, metal die 1602a, 1602b are in the upstream side under the open mode.(B) state of side shifting downstream is shown while depressing.(C) expression is depressed end, is moved to the state in downstream.And, with the transporting velocity of feeding roller 1607, pinch roll 1608 and the rollgang 1609 of input side conveying device 1605 and outlet side conveying device 1606 be adjusted to (B) shown in depress move in metal die 1602a, the translational speed of the preceding line direction of 1602b is identical.
(the 32nd embodiment)
Figure 96 shows the view of the 32nd embodiment.The formation of machine is identical with the 31st embodiment shown in Figure 94, but action is different.In the time of will be pressed material 1 only by press, or compacting pressed material 1 that problem takes place the time make it contrary and walk under the situation, be in the transporting flat of input side conveying device 1605 and outlet side conveying device 1606 same, to go up lower mold 1602a, 1602b opens into limit, and the top conduct of the lower mold 1602b state lower than transporting flat carried down.At this moment, the pinch roll of input side and outlet side 1608 rises to the upper limit with top roll, is pressed material 1 not retrain.
As described above as can be known, the present invention becomes the plane that deducts half height of being pressed material thickness of moving into from the press center by the transporting flat with the input side conveying device, the transporting flat of outlet side conveying device is become the plane that deducts rolling half height of being pressed material thickness from the press center, pressed material can not bend etc., can be prevented to damage conveying device.In addition, by being pressed material only by in the press time, input side conveying device and outlet side conveying device are in same transporting flat, and metal die is opened into limit, can carry in press smoothly.
The present invention is illustrated according to a plurality of preferred embodiments, but is to be understood that, the protection domain that the present invention comprised is not limited to these embodiment.On the contrary, protection scope of the present invention is included in all improvement, correction and the equivalent in claims protection domain of being enclosed.

Claims (13)

1. the presser device of a thickness of slab is characterized in that, has pressed material opposite disposed and the driving eccentric shaft up and down that is driven in rotation up and down; Drive the synchronous eccentric shaft up and down of eccentric shaft rotation round this; What one end can be embedded in that on this synchronous eccentric shaft and the other end can rotate freely connection mutually with being free to slide depresses framework up and down; Be installed in the last lower mold of depressing up and down on framework one end with being opposite to with being pressed material;
By driving the rotation of eccentric shaft up and down, make lower mold open, close, so that when metal die is depressed,, the linear velocity of depressing framework is synchronously depressed with the linear velocity of being pressed material pressed material by synchronous eccentric shaft.
2. the presser device of a thickness of slab, it is characterized in that having and pressed the bent axle of material upper and lower settings, can be embedded in the slide block of the off-centre rotation on this bent axle with being free to slide, be opposite to the drive unit that is arranged on the metal die on this slide block with pressing material and drives described crankshaft rotating; Described bent axle by with the chimeric eccentric shaft of described slide block and be arranged on these eccentric shaft both sides, the bolster in axle center with axle center off-centre of relative eccentric shaft constitutes, at least one side of this bolster, be provided with and the eccentric direction of the described eccentric shaft counterweight of eccentric 180 ° of directions roughly.
3. the presser device of a thickness of slab, it is characterized in that, have and pressed the bent axle of material upper and lower settings, what one end can be embedded on this bent axle with being free to slide and eccentric rotation and the other end can rotate freely connection mutually depresses framework up and down, but along continuous straight runs supports the horizontally-guided device of this connecting portion of depressing framework movably, be opposite to and be arranged on the drive unit that this is depressed the metal die on framework one end and drives described crankshaft rotating with being pressed material; Described bent axle by with the chimeric eccentric shaft of described slide block and be arranged on these eccentric shaft both sides, the bolster in axle center with axle center off-centre of relative eccentric shaft constitutes, at least one side of this bolster, be provided with and the eccentric direction of the described eccentric shaft counterweight of eccentric 180 ° of directions roughly.
4. according to the presser device of claim 2 or 3 described thicknesss of slab, it is characterized in that described counterweight has the sufficient quality of savings rotating energy, also can be as flywheel work.
5. according to the presser device of claim 2 or 3 described thicknesss of slab, it is characterized in that the inertia force that off-centre produced of described counterweight is set inertia force or the described inertia force of depressing an end of framework that can roughly offset described slide block for.
6. the presser device of a thickness of slab, it is characterized in that, has metal die in the slab upper and lower settings, be arranged on each metal die, up and down with the slide block of swing metal die, with the drive unit that drives this slide block, described slide block has body and bent axle, the slide block body has the circular hole that central axis is arranged on the width of plate slab direction, the 2nd of being staggered by the center line with this circular hole chimeric the 1st and, center line littler than the 1st shaft diameter and the 1st of bent axle constitutes, and the 2nd by described drive unit driven rotary.
7. the presser device of a thickness of slab, it is characterized in that, has the metal die that about slab, is provided with on the either party, up and down with the slide block of this metal die of swing, drive the drive unit of this slide block, described metal die is provided with being opposite to across slab, the support unit of supporting slab, described slide block has body and bent axle, the slide block body has the circular hole that central axis is arranged on the width of plate slab direction, bent axle by with this circular hole chimeric the 1st and littler than the 1st shaft diameter, the 2nd formation that center line and the 1st center line staggers, the 2nd by described drive unit driven rotary.
8. according to the presser device of claim 6 or 7 described thicknesss of slab, it is characterized in that having the circular hole and the bent axle that are arranged on the described slide block is to be provided with along a plurality of row ground that are arranged into of slab flow direction, and each bent axle can produce the structure of the power of depressing.
9. according to the presser device of claim 6 or 7 described thicknesss of slab, it is characterized in that, having the circular hole and the bent axle that are arranged on the described slide block is to be provided with along a plurality of row ground that are arranged into of slab flow direction, and bears loading moment by a bent axle, and other bent axles produce the structure of the power of depressing.
10. according to the presser device of claim 6 or 7 described thicknesss of slab, it is characterized in that described slab is carried by pinch roll or roller-way, when being depressed by slide block, consistently carries slab with the pace of slide block.
11. the presser device according to claim 6 or 7 described thicknesss of slab is characterized in that, during thickness is depressed and in 1 circulation that constitutes during the common transporting velocity, the distance L that slab moves can be longer along the length L 1 of slab flow direction than metal die.
12. the presser device of a thickness of slab, it is characterized in that, has the 1 pair of metal die that stands facing each other up and down and be provided with respect to slab, be arranged on each metal die, the pendulous device that metal die is seesawed towards slab, this pendulous device has slide block, this slide block has oblique or perpendicular to the setting of slab feeding direction, be spaced from each other 1 pair of circular hole of L at interval, with the eccentric shaft that in described circular hole, rotates, this eccentric shaft by the center line A with circular hole be the 1st of in circular hole, rotating in center and with the 1st center line B that separates eccentric amount e be that rotation the 2nd of driving in center constitutes.
13. the pressing plate method of a thickness of slab, it is characterized in that, has the 1 pair of metal die that stands facing each other up and down and be provided with respect to slab, with the pendulous device that is arranged on each metal die, metal die is seesawed towards slab, during depressing the compacting of slab by metal die, the feed rate of slab and metal die is synchronous, leaves at slab during the non-compacting of metal die, can send slab under the certain speed of acquisition for the circulation rate of regulation.
CNB2005100712632A 1997-09-16 1998-09-11 Plate reduction press apparatus and methods Expired - Fee Related CN1315590C (en)

Applications Claiming Priority (17)

Application Number Priority Date Filing Date Title
JP25098397A JP3991127B2 (en) 1997-09-16 1997-09-16 Sheet thickness reduction method and apparatus
JP250983/97 1997-09-16
JP277490/97 1997-10-09
JP280414/97 1997-10-14
JP288638/97 1997-10-21
JP324669/97 1997-11-26
JP332569/97 1997-12-03
JP338376/97 1997-12-09
JP338375/97 1997-12-09
JP34744/98 1998-02-17
JP37012/98 1998-02-19
JP37013/98 1998-02-19
JP42326/98 1998-02-24
JP42328/98 1998-02-24
JP166546/98 1998-06-15
JP167985/98 1998-06-16
JP167981/98 1998-06-16

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CNB988013649A Division CN100415397C (en) 1997-09-16 1998-09-11 Plate thickness pressing device and method

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CNB2006101373974A Division CN100525942C (en) 1997-09-16 1998-09-11 Plate thickness pressing device and method

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CN1698987A true CN1698987A (en) 2005-11-23
CN1315590C CN1315590C (en) 2007-05-16

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CN 200510071265 Expired - Fee Related CN1331620C (en) 1997-09-16 1998-09-11 Plate reduction press apparatus and methods
CNB2005100712647A Expired - Fee Related CN1315591C (en) 1997-09-16 1998-09-11 Plate reduction press apparatus and methods
CNB2005100712632A Expired - Fee Related CN1315590C (en) 1997-09-16 1998-09-11 Plate reduction press apparatus and methods
CNB2006101373974A Expired - Fee Related CN100525942C (en) 1997-09-16 1998-09-11 Plate thickness pressing device and method

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CNB2005100712647A Expired - Fee Related CN1315591C (en) 1997-09-16 1998-09-11 Plate reduction press apparatus and methods

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CN103906583A (en) * 2011-10-25 2014-07-02 杰富意钢铁株式会社 Hot slab shape control equipment and shape control method
CN112496035A (en) * 2020-11-06 2021-03-16 太原科技大学 Method for roll forming of special metal pole plate rolling machine
CN112496035B (en) * 2020-11-06 2023-06-30 太原科技大学 Rolling forming method of special rolling machine for metal polar plate

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Publication number Publication date
CN1970180A (en) 2007-05-30
CN1315590C (en) 2007-05-16
CN1698988A (en) 2005-11-23
JPH1190502A (en) 1999-04-06
CN1315591C (en) 2007-05-16
CN100525942C (en) 2009-08-12
CN1698989A (en) 2005-11-23
CN1331620C (en) 2007-08-15
JP3991127B2 (en) 2007-10-17

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