CN1935487A - Sheet or film-forming roll - Google Patents
Sheet or film-forming roll Download PDFInfo
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- CN1935487A CN1935487A CN 200610144498 CN200610144498A CN1935487A CN 1935487 A CN1935487 A CN 1935487A CN 200610144498 CN200610144498 CN 200610144498 CN 200610144498 A CN200610144498 A CN 200610144498A CN 1935487 A CN1935487 A CN 1935487A
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- forming roll
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Abstract
The invention relates to a sheet or film-forming roll 10 includes an inner cylinder member 20 having axial parts 21, 22 provided on both sides thereof and rotatably supported by bearing parts 26, 27 through the axial parts 21, 22 , a rubber roll 40 fitted to an outer circumferential surface of the inner cylinder member 20 , eccentric side plates 53, 54 rotatably fitted to the axial parts of the inner cylinder member respectively, and an elastic outer cylinder member 50 rotatably supported by the eccentric side plates. The elastic outer cylinder member 50 is provided with a thin-walled structure and made from metal, has an inner diameter larger than an outer diameter of the rubber roll to accommodate the rubber roll in an interior 68 thereof, and has inner circumferential surface 50 A coming into contact with an outer circumferential surface 40 A of the rubber roll.
Description
Technical field
The present invention relates to a kind of thin slice or film-forming roll, especially relate to the touch roll that is applicable to a kind of thin slice of formation or film.
Background technology
Known a kind of contact roll shape thin slice or film shaped method are used for forming thin slice or film continuously by the interval of resin between a home roll and a secondary roller (touch roll) that fusion is provided from a T shape mould.
The open No.2002-36332 of Japanese patent unexamined discloses a kind of touch roll, and this touch roll has the double-decker that comprises an external roller and an internal cylinder.In this touch roll, external roller uses the thin-wall construction of metal to form, and provides convex simultaneously on the outline of touch roll.
Simultaneously, Japanese patent application publication No. No.3194904 discloses another kind of touch roll, and this touch roll has the double-decker that comprises an external roller and an internal cylinder.In this touch roll, external roller uses the thin-wall construction of metal to form.In addition, external roller can flexibly be out of shape, and follows the outer peripheral face surface of home roll simultaneously by the load that applies on home roll.
In addition, Japanese patent application publication No. No.3422798 discloses a kind of touch roll, the metal outer cylinder of one thin-walled rotatably is connected and has altogether on the non-rotary central support shaft in center, and a rubber rollers rotatably and prejudicially is connected on the central support shaft in the thin-wall metal external roller.In this touch roll, because its off-centre, the external peripheral surface of rubber rollers abuts against on the circumferential surface of thin-wall metal external roller, make the elasticity of rubber like of rubber rollers receive the thin-wall metal external roller because of its strain that applied pressure load (" internal pressure " that be rubber rollers supports) causes on a home roll.
According to a kind of thin slice or film-forming roll, the touch roll of its use a kind of " rubber rollers engraving type ", the internal pressure of carrying out rubber rollers on the thin-wall metal external roller supports, compare with following a kind of thin slice or film-forming roll, be that it uses a kind of touch roll, this touch roll only comprises the metal outer cylinder that is provided with thin-wall construction, can form a kind of thin thin slice or film, because the pressure loading on the home roll allows the thin-wall metal external roller flexibly and suitably to be out of shape when following the external peripheral surface of home roll.
But, when using in Japanese patent application publication No. No.3422798 the thin slice or the film-forming roll of disclosed a kind of like this " rubber rollers engraving type " touch roll right, it has to the thin-wall metal external roller is operably connected with the rotary forming roller with a motor, because central support shaft forms with non-rotatable axle.As a result, this makes it be difficult in the already present general thin slice or apparatus for forming thin film, because its drive system is structurally very complicated.
Summary of the invention
In these cases, an object of the present invention is to provide a kind of thin slice or film-forming roll, it can the rotary forming roller, and does not need complicated drive system, and can be used in the existing general thin slice or apparatus for forming thin film.
In order to achieve the above object, according to a first aspect of the invention, a kind of thin slice or film-forming roll are provided, comprise: an internal cylinder element, it has a drum part and axial members, each axial members is extended along the central axis of this drum part, and this internal cylinder element is rotatably supported by this axial members; One rubber rollers is installed on the external peripheral surface of this internal cylinder element; With an elasticity external roller element, be set to prejudicially on this internal cylinder element, make the circumferential surface of this elasticity external roller element contact with the part of the external peripheral surface of this rubber rollers, this elasticity external roller element is provided with a kind of thin-wall construction and makes with metal.
According to a second aspect of the invention, a kind of thin slice or film-forming roll also are provided, comprise: an internal cylinder element, the axial members that it has an elastic drum main body and extends along the central axis of elastic drum main body, this internal cylinder element is supported by axial members with being rotated; One elasticity external roller element is arranged on this internal cylinder element prejudicially, make the circumferential surface of this elasticity external roller element contact with the part of the external peripheral surface of this internal cylinder element, this elasticity external roller element has a kind of thin-wall construction and uses metal to make; With a gear mechanism, when this internal cylinder element is rotated, be used for the rotating torques of this internal cylinder element is sent to this elasticity external roller element.
Description of drawings
Fig. 1 is a kind of schematic diagram, has shown to use according to a kind of thin slice of thin slice of the present invention or film-forming roll or the summary of film shaped method.
Fig. 2 is a kind of profile, has shown a kind of thin slice or apparatus for forming thin film, according to the first embodiment of the present invention, wherein combines thin slice of the present invention or film-forming roll.
Fig. 3 is the enlarged drawing of the major part of thin slice or film-forming roll among Fig. 2.
Fig. 4 is along the profile of IV-IV line among Fig. 3.
Fig. 5 is along the profile of V-V line among Fig. 3.
Fig. 6 be according to a second embodiment of the present invention thin slice or the profile of film-forming roll.
Fig. 7 is the thin slice of a third embodiment in accordance with the invention or the profile of film-forming roll.
Fig. 8 is along the profile of VIII-VIII line among Fig. 7.
Fig. 9 is an a fourth embodiment in accordance with the invention, wherein combines the thin slice of thin slice of the present invention or film-forming roll or the profile of apparatus for forming thin film.
Figure 10 is the enlarged drawing of the major part of thin slice or film-forming roll among Fig. 9.
Figure 11 is along the profile of XI-XI line among Fig. 9.
Figure 12 is along the profile of XII-XII line among Fig. 9.
The specific embodiment
With reference to Fig. 1, a kind of thin slice or the film shaped method of using thin slice of the present invention or film-forming roll described at first briefly.According to this thin slice or film shaped method, molten resin " M " is provided to from T shape mould 100 in the interval between a paired home roll 101 and the secondary roller (as connect melt roller) 102, produces thin slice or film " F " continuously.Thin slice of the present invention or film-forming roll are applied on the secondary roller (touch roll) 102.
First embodiment
Thin slice or film-forming roll according to first embodiment of the invention are described with reference to Fig. 2 to 5.
Thin slice or film-forming roll 10 comprise an internal cylinder element 20, a rubber rollers 40 and a metallic elastic external roller (elasticity external roller element) 50.
In internal cylinder element 20, shaft element (axial members) 21,22 is rotatably supported accordingly by one " fore side " parts of bearings 26 and one " driving side " parts of bearings 27.So internal cylinder element 20 can be around its central axis rotation.In other words, fore side parts of bearings 26 and inboard bearing parts 27 are rotatably supported the shaft element 21,22 of internal cylinder element 20 respectively by bearing element 28,29.
The shaft element 21,22 of internal cylinder element 20 is rotatably supported the eccentric side plate 53,54 of dish-type separately by ball bearing 51,52.The respective center " Cb " of eccentric side plate 53,54 is positioned at the center " Ca " with respect to internal cylinder element 20 prejudicially, the position (see figure 5) of a displacement length " e ".
Because the friction between the corresponding contact portion of rubber rollers 40 and metallic elastic external roller 50, both rotations of internal cylinder element 20 and rubber rollers 40 are sent to the external roller 50 of metallic elastic, make it rotate, rotatably supported by eccentric side plate 53,54 simultaneously around its central axis.
Notice that above-mentioned being provided with can improve, making is not having under the condition of load, and rubber rollers 40 does not contact with metallic elastic external roller 50, thereby produces the gap between the circumferential surface 50A of the external peripheral surface 40A of rubber rollers 40 and external roller 50.Because this layout can be fit into the internal cylinder element 20 that rubber rollers 40 is housed in the metallic elastic external roller 50 at an easy rate.
In addition, in order to guarantee to transmit rotary power by friction between rubber rollers 40 and metallic elastic external roller 50, rubber rollers 40 can be provided with circumferential groove or helical groove on external peripheral surface 40A.
As a result, rubber rollers 40 abuts against on the circumferential surface 50A of metallic elastic external roller 50, and the side of cylinder is pressed in (right side among Fig. 4) on the home roll 101.
As shown in Figure 5, revolution backstopping assembly 58 (57) comprises that one is fixed on projecting block 59 on the eccentric side plate 54 (53) and screw-in and is fixed on adjustment screw 62,63 in the contiguous block 60,61 on the inboard bearing parts 27 (fore side parts of bearings 26).Because adjustment screw 62,63 penetrates each projecting block 59 from two ends, eccentric side plate 53,54 is prevented from rotation.
Further, by regulating the penetration depth of adjustment screw 62,53, projecting block 59 penetrate the position can be on the circumferencial direction of eccentric side plate 54 (53) (as clockwise and counterclockwise) be changed.So the revolution stop dog position of corresponding eccentric side plate 53,54 can be set with changing.The offset that this means the metallic elastic external roller 50 that is pressed on the home roll 101 can increase and regulate with reducing.
A potted component 64 is installed between the shaft element 21 and eccentric side plate 53 of internal cylinder element 20, and another potted component 65 is installed between the shaft element 22 and eccentric side plate 54 of internal cylinder element 20.Similarly, a potted component 66 is installed between eccentric side plate 53 and the metallic elastic external roller 50, and another potted component 67 is installed between eccentric side plate 54 and the metallic elastic external roller 50.So the inside 68 of metallic elastic external roller 50 forms the structure with a kind of convection cell sealing.
At the fore side of the centre bore 69 of shaft element 21, a pipe 70 has defined a heat medium service duct 71 and a heat medium passing away 72.Heat medium service duct 71 and heat medium passing away 72 are communicatively connected to a cooling water (cooling agent) supply joint 74 by the double structure swivel joint 74 on the axle head that correspondingly is installed in shaft element 21 and a cooling water (cooling agent) is discharged joint 75 (at two joints of a fixation side) (see figure 2).
Heat medium service duct 71 by pipe 76 between the vibrating part 23,24 in the centre of internal cylinder element 20 or similarly bridge joint be connected with heat medium supply orifice 77,78, these heat medium supply orifices are formed in the shaft element 22 of driving side.Heat medium passing away 72 is connected with a heat medium tap 79 in being formed on shaft element 21.
Therefore, cooling water answers joint 74 to be fed to the inside 68 of metallic elastic external roller 50 from the cooling water bridge, passes through swivel joint 73, heat medium service duct 71, pipe 76 and heat medium supply orifice 77,78 successively.So the inside 68 of metallic elastic external roller 50 has been full of cooling water.Cooling water in inner 68 flow into heat medium passing away 72 successively from heat medium tap 79, and swivel joint 73 and cooling water are discharged joint 75, and is discharged to the outside of joint 75.
The thin slice of said structure or film-forming roll 10 are rotated (making center " Ca " rotation into pivot) by the central axis that motor 32 drives around it, and condition is by fore side parts of bearings 26 and inboard bearing parts 27 supporting and 20 one-tenth as a whole rubber rollers 40 of internal cylinder element.
Because the external peripheral surface 40A of rubber rollers 40 is adjacent to the circumferential surface 50A of metallic elastic external roller 50, because the friction between the corresponding contact portion of roller 40 and cylinder 50, the rotation of internal cylinder element 20 and rubber rollers 40 is sent to metallic elastic external roller 50.Therefore, metallic elastic external roller 50 rotatably supported by eccentric side plate 53,54, and when rubber rollers 40 is adjacent to cylinder 50 inboard around its central axis rotation.
As mentioned above, because thin slice or film-forming roll 10 are included in the inboard metallic elastic external roller of being supported by rubber rollers 40 50, so when following the external peripheral surface of home roll 101, because metallic elastic external roller 50 applied pressure load on home roll, metallic elastic external roller 50 can flexibly and suitably be out of shape.So the thin slice of this embodiment or film-forming roll are only compared with traditional thin slice or film-forming roll that a kind of thin-wall construction forms with metal outer cylinder wherein, can form thin film.
Further, be driven on the shaft element 22 and traditional thin slice or film-forming roll that side bearing parts 27 are supported if only motor 22 is connected to, then thin slice or film-forming roll 10 can by one with the similar driving machine rotation of conventional ADS driving mechanism.So thin slice or film-forming roll 10 itself can be used in already present general thin slice or the film shaped machinery, and need not make the structure of drive system become complicated.
In addition, because being formed the eccentric side plate 53,54 of the side end plate of metallic elastic external roller 50, eccentric holding components is shaped, maintenance/inspection and parts for ball bearing 51,52,55,56 and potted component 64,65,66,67 are replaced and can be carried out at the side of roller, and need not disassemble roller fully, this is superior when safeguarding.
In addition, when the adjustment screw 62,63 of turning round backstopping assembly 57,58 allows the offset of metallic elastic external roller 50 to increase and to regulate with reducing, just may regulate the wearing and tearing that easily compensate rubber rollers 40.Specifically, though since the wearing and tearing of rubber rollers 40 from the pressure distribution of the support of inboard when incorrect, be used to cancel the adjusting of twisting on this geometry even can finish during operation.
In the thin slice or film-forming roll 10 of said structure, (being generatrix direction) is applied on fore side parts of bearings 26 and the inboard bearing parts 27 two positions of biasing mutually if load radially is respectively in axial direction, then drum elements 25 can be bent, and its main body is arched upward backward.By using this behavior pattern, inside pressure in the axial direction distributes and can be provided with changing, obtains " convex " feature.Relatively, if use the material of hard rubber class to make eccentric side plate 53,54, then above-mentioned advantage can be more effective.
In this embodiment, internal cylinder element 20 is shaped as the hollow assembly of shaft element 21,22 and drum elements 25.But internal cylinder element 20 can be modified to a solid body.Relatively, internal cylinder element 20 can be provided by a whole main body, and wherein shaft element 21,22 and drum elements 25 are combined in together.Notice that internal cylinder element 20 is not limited in a kind of cylinder body.Even solid body also can be finished same function.
Second embodiment
According to a second embodiment of the present invention thin slice or film-forming roll are described with reference to Fig. 6.In Fig. 6, with Reference numeral identical in corresponding element use and Fig. 2 and 3 in Fig. 2 and 3 and omit their explanation.
According to second embodiment, a shaft element 34 is provided with axial members 21,22 at its two ends.The axial members 21,22 of shaft element 34 is supported rotatably that by corresponding fore side parts of bearings 26 and inboard bearing parts 27 this is similar to previous embodiment.Shaft element 34 is provided with a large diameter part 35 in inner 68 at its axial mid portion.
One internal cylinder element 36 waits by welding with the form at the cylinder opening at its two ends and is connected on the large diameter part 35.That is to say that internal cylinder element 36 is connected with shaft element 34 at axial mid portion, represents a kind of so-called " intermediate cycling load " structure.Rubber rollers 40 is installed on the whole external peripheral surface of internal cylinder element 36 with the lamination form.
Except said structure, the thin slice of second embodiment or film-forming roll are similar to previous embodiment.
In this embodiment, though internal cylinder element 36 and rubber rollers 40 only axially are being rigidly connected on the shaft element 34 the terminal formation of the corresponding axis of internal cylinder element 36 and rubber rollers 40 free end on the mid portion.So the pressure of the rubber rollers 40 of the inboard of support metallic elastic external roller 50 is compared with the pressure that is applied to axial end and is enhanced at axial mid portion.So according to second embodiment, except the effect with first embodiment, thin slice or film forming roller also can provide " convex " feature.
The 3rd embodiment
Thin slice or film-forming roll according to third embodiment of the invention are described with reference to Fig. 7 and 8.In Fig. 7 and 8, with corresponding element among Fig. 2 to 5 use with Fig. 2 to 5 in identical Reference numeral and omit their explanation.
In this embodiment, the side plate 82,83 with central opening 80,81 is fixed on two ends of metallic elastic external roller 50 accordingly.
The shaft element 21,22 of internal cylinder element 20 phase time under so-called " matched in clearance " condition (free state) passes the central opening 80,81 of side plate 82,83 with answering.Therefore, the assembly of metallic elastic external roller 50 and side plate 82,83 is provided with prejudicially with respect to rubber rollers 40.Similar with previous embodiment, the circumferential surface 50A of metallic elastic external roller 50 is adjacent to the external peripheral surface 40A of rubber rollers 40.Metallic elastic external roller 50 is supported rotatably that by many outside rollers 88 described outside roller is adjacent to the external peripheral surface of metallic elastic external roller 50.
According to this embodiment, the shaft element 21 of internal cylinder element 20 has the centre bore 69 of an opening in the inner space 84 of internal cylinder element 20.In this embodiment, centre bore 69 self constitutes a heat medium service duct.Form many heat medium access openings 85,86, so that pass the drum elements 25 and the rubber rollers 40 of internal cylinder element 20 accordingly.
Cooling water is supplied in the inner space 84 of internal cylinder element 20.Then, cooling water flow in the inside 68 of metallic elastic external roller 50 by heat medium access opening 85,86, and owing to a lower position that acts on inside 68 of gravity is gathered.Cooling water flows out to the outside by the central opening 80 of the side plate 82 of a side mouth of formation metallic elastic external roller 50, and is collected by external refrigeration water collection cups 87.
Also be in this embodiment, internal cylinder element 20 and whole rubber rollers 40 are rotated by the central axis of motor around them.Because the external peripheral surface 40A of rubber rollers 40 is adjacent to the circumferential surface 50A of metallic elastic external roller 50, because the friction between their contact portions, the rotation of internal cylinder element 20 and rubber rollers 40 is sent to metallic elastic external roller 50.Therefore, metallic elastic external roller 50 is rotated around its central axis, and rubber rollers 40 abuts against the inboard of cylinder 50 simultaneously.
By this way, the third embodiment of the present invention can produce the similar effect with first embodiment.
As mentioned above, according to the thin slice from first embodiment to the, three embodiment or the common ground of film-forming roll, rubber rollers (with one heart) is mounted to the external peripheral surface of internal cylinder, internal cylinder is rotatably supported by parts of bearings (prejudicially) by the axial members on its two ends, and the metallic elastic external roller is provided with prejudicially with respect to rubber rollers.Therefore, because being operatively connected between the axial members of internal cylinder element and the motor, because the friction between rubber rollers and the metallic elastic external roller 50 corresponding contact portions, the rotation of internal cylinder element can be sent to metallic elastic external roller 50.Therefore,, also can in a kind of already present general thin slice or apparatus for forming thin film, use thin slice of the present invention or film-forming roll, and can not make drive system structurally become complicated even be driven rotatably.
The 4th embodiment
Thin slice or film-forming roll according to fourth embodiment of the invention are described with reference to accompanying drawing 9 to 12.
Thin slice or film-forming roll 200 comprise an internal cylinder element 120 and a metallic elastic external roller (elasticity external roller element) 150.
Elastic drum main body 125 comprises a metal roller element 126 and a rubber rollers 127, and this metal roller element has two ends that correspondingly are welded on the vibrating part 123,124, and this rubber rollers is installed on the external peripheral surface of metal roller element 126.Rubber rollers 127 uses class to make with the elastomeric material of rubber, for example silicon rubber, ethylene-propylene rubber etc.Rubber rollers 40 is installed on the whole external peripheral surface of metal roller element 126 with the lamination form.
The shaft element 122 of driving side is operably connected on the motor 131.Use such layout, internal cylinder element 120 is operatively coupled on the motor 131, and by these motor 131 rotations.
The shaft element 121,122 of internal cylinder element 120 is rotatably supported dish-type eccentric side plate 153,154 separately by ball bearing 151,152 accordingly.Eccentric side plate 153,154 corresponding separately centers " Cb " are compiled heart location (seeing Figure 12) with respect to the center " Ca " of internal cylinder element 120 with a shift length " e ".
Metallic elastic external roller 150 forms with the form of sheet metal such as the stainless steel thin slice, shows as the rubber-like thin-wall construction.The end member 181,182 of annular integrally is connected on two ends of metallic elastic external roller 150.Ring gear Connection Element 183,184 integrally is connected the inboard of corresponding end component 181,182 accordingly.
Eccentric side plate 153,154 answers ground rotatably to support two ends of gear Connection Element 183,184 by ball bearing 155,156 at their exterior periphery parts place phase time.As a result, two of metallic elastic external roller 150 ends are because ball bearing 155,156 passes through end component 181,182 and gear Connection Element 183,184 is rotatably supported by eccentric side plate 153,154.
Metallic elastic external roller 150 has one fully greater than the internal diameter " Rb " (seeing Figure 11) of the external diameter " Ra " of rubber rollers 127, and holds rubber rollers 127 in the inside 168 of cylinder 150.Because this eccentric setting of the external roller 150 relevant with rubber rollers 127, the circumferential surface 150A of external roller 150 contacts with the external peripheral surface 127A of rubber rollers 127 on the nearside (right side of Figure 11) of off-centre.
Notice that above-mentioned layout can be modified, making is not having under the condition of load, the external peripheral surface 127A of rubber rollers 127 is not adjacent to the circumferential surface 150A of metallic elastic external roller 150, between the circumferential surface 150A of the external peripheral surface 127A of rubber rollers 127 and external roller 150, produce a gap, this in addition layout can change, and makes contacting between the circumferential surface 150A of external peripheral surface 127A that metallic elastic external roller 150 and home roll 101 contacted strains cause in rubber rollers 127 and external roller 150.Because these change, and can be installed in the internal cylinder element 120 that rubber rollers 127 is housed in the metallic elastic external roller 150 at an easy rate.
Internal gear (pinion) 132,133 is fixed on the exterior periphery parts of shaft element 121,122 of internal cylinder element 120 separately accordingly.Simultaneously annular, outer gear 134,135 separately phase time should be fixed on the metallic elastic external roller 150 whole gear Connection Elements that combine 183,184 on, and concentric with this cylinder 150.Internal gear 132,133 accordingly at the nearside (right side of Figure 11) of off-centre, is meshed with outer gear 134,135 separately.Use this engagement, the rotation of shaft element 121, the 122 just rotation of internal cylinder element 120 is sent to metallic elastic external roller 150.
Attention can replace above-mentioned inside and be provided with, and in improvement, internal gear 132,133 and outer gear 134,135 can be arranged on the outside of the inside 168 of metallic elastic external roller 150.
The number of teeth of " if Za " expression internal gear 132 (133), the number of teeth of " Zb " expression outer gear 134 (135), the external diameter of " Ra " expression rubber rollers 127, and the internal diameter of " Rb " expression metallic elastic external roller 150.In this case, if the number of teeth is determined to be satisfy condition " Za=Zb (Rb/Ra) ", then the peripheral speed of the external peripheral surface of rubber rollers 127 becomes and equates with the peripheral speed of the inner circumferential surface of metallic elastic external roller 150, so it is rotated forcefully, between the circumferential surface of the external peripheral surface of rubber rollers 127 and metallic elastic external roller 150, can not produce any slip.
Eccentric side plate 153,154 is connected to " fore side " parts of bearings 190 and " driving side " parts of bearings 191 accordingly by revolution backstopping assembly 157,158, is rotated to prevent plate 153,154.Because the existence of revolution backstopping assembly 157,158, the eccentric direction of the eccentric side plate 153,154 relevant with internal cylinder element 120 and rubber rollers 127 can be determined.As shown in figure 11, eccentric direction is created as and makes that a side of thin slice relative with home roll 101 or film-forming roll (touch roll) 110 is consistent than nearside (right side among Figure 11) with off-centre.That is to say, set up a such eccentric direction, make the center " Ca " of internal cylinder element 120 compare with the center " Cb " of eccentric side plate 153,154 and home roll 101 become nearlyer (seeing Figure 12).
As a result, rubber rollers 127 is adjacent to the circumferential surface 150A of metallic elastic external roller 150, and the side of cylinder is pressed in (right side among Figure 11) on the home roll 101.
As shown in Figure 12, revolution backstopping assembly 158 (157) comprises projecting block 159 and the adjustment screw 162,163 that is fixed on the eccentric side plate 154 (153), and adjustment screw is screwed into contiguous block 160,161 the insides that are fixed on the inboard bearing parts 191 (fore side parts of bearings 190).Because adjustment screw 162,163 is passed each projecting block 159 from two ends, eccentric side plate 153,154 is prevented from rotation.
Further, by adjusting the penetration depth of adjustment screw 162,163, on a circumferencial direction (being clockwise direction and counter clockwise direction) of eccentric side plate 154 (153), can change the position that penetrates of projecting block 159.So the corresponding revolution stop dog position of eccentric side plate 153,154 can be set with changing.This means that metallic elastic external roller 150 is pressed in the mode that the offset on the home roll 101 can increase and reduce and regulates.
A potted component 164 is installed between the shaft element 121 and eccentric side plate 153 of internal cylinder element 120, and another potted component 165 is installed between the shaft element 122 and eccentric side plate 154 of internal cylinder element 120.Similarly, a potted component 166 is installed between the gear Connection Element 183 of eccentric side plate 153 and metallic elastic external roller 150, and another potted component 167 is installed between the gear Connection Element 184 of eccentric side plate 154 and metallic elastic external roller 150.So the inside 168 of metallic elastic external roller 150 forms the structure with convection cell sealing.
The shaft element 121 of fore side is formed with a centre bore 169.Pipe 170 inserts in the centre bore 169.Heat medium service duct 171 and heat medium passing away 172 are defined at the inboard and the outside of pipe 170 accordingly.A double-deck swivel joint (not shown) of heat medium service duct 171 and heat medium passing away 172 shaft end by being installed in shaft element 121 accordingly can be communicatively connected to a unshowned chilled(cooling) water supply (CWS) joint and a unshowned cooling water is discharged joint (both is on a fixation side).
Heat medium service duct 171 by pipe 173 pipe internal channel 174 and also the heat medium supply orifice 175,176 by formation on drive-side shaft element 122 communicate with a side (left side) of the inside 168 of metallic elastic external roller 150, this pipe bridges between the vibrating part 123,124 and at the core of internal cylinder element 120 to be expanded along axis direction.Heat medium passing away 172 is connected with another side (right side) of the inside 168 of metallic elastic external roller 150 by the heat medium tap 177 that is formed on the shaft element 121.
Cooling water is fed to the inside 168 of metallic elastic external roller 150 successively through swivel joint (not shown), heat medium service duct 171, pipe internal channel 174 and heat medium supply orifice 175,176 from chilled(cooling) water supply (CWS) joint (not shown).So the inside 168 of metallic elastic external roller 150 has been full of cooling water.Cooling water in inner 168 to opposite side, enters heat medium passing away 172 by heat medium tap 177 from an effluent, and flows into swivel joint and cooling water discharge joint.Then, cooling water is discharged to the outside of joint.
Under the condition of fore side parts of bearings 190 and inboard bearing parts 191 supporting internal cylinder elements 120, the thin slice of said structure or film-forming roll 200 are rotated (being rotated around the center " Ca " as pivot) by the central axis that motor 131 is driven into around it.
Because the engagement of internal gear 132,133 and outer gear 134,135, the rotation of internal cylinder element 120 is transmitted to metallic elastic external roller 150.As a result, metallic elastic external roller 150 rotatably supported by eccentric side plate 153,154, and when rubber rollers 127 is adjacent to cylinder 150 inboard, is rotated around its central shaft.
Because the mode of metallic elastic external roller 150 by gear driven forcefully, it is rotated synchronously with the rotation of internal cylinder element 120 natch, therefore can not produce slip between metallic elastic external roller 150 and rubber rollers 127.
As mentioned above, because thin slice or film-forming roll 200 comprise by the rubber rollers 127 metallic elastic external roller 150 supported of side within it, when owing to being applied to pressure loading on the home roll by metallic elastic external roller 150 and following the external peripheral surface of home roll 101, metallic elastic external roller 150 can be flexibly and distortion suitably.So compare with a traditional thin slice or film-forming roll, the thin slice of this embodiment or film-forming roll can form thin film, and in this traditional thin slice or film-forming roll, the metal outer cylinder only forms with a thin-wall construction.
Further, if only motor 131 is connected on the shaft element of being supported by inboard bearing parts 127 122 and traditional thin slice or film-forming roll, then thin slice or film-forming roll 200 can be by driving mechanism rotations similar to conventional ADS driving mechanism.So thin slice or film-forming roll 200 can be used for already present general thin slice or film shaped machinery, and can not become complicated to the structure of drive system.
In addition, because eccentric holding components is formed the eccentric side plate 153,154 of metallic elastic external roller 150 sides end plate and forms, maintenance/inspection and parts for ball bearing 151,152,155,156 and potted component 164,165,166,167 are replaced and can be carried out on the side of roller, and need not dismantle roller fully, this is superior on safeguarding.
In addition, because the adjustment screw 162,163 of revolution backstopping assembly 157,158 allows the offset of metallic elastic external roller 150 to regulate in the mode that increases and reduce, so can regulate the wearing and tearing that easily compensate rubber rollers 127.At length, even, be used for cancelling the adjusting of this geometric warping even can finishing in operating process because the pressure distribution that the wearing and tearing of rubber rollers 127 are supported internally is incorrect.
Should attentively be, the rubber rollers 127 of internal cylinder element 120 be the essential basic element of character for thin slice of the present invention or film-forming roll, but a kind of selectable unit (SU).Forming a kind ofly when not being too thin film, elastic drum main body 125 also can be formed by the metal roller of a strain only.
As mentioned above, because the thin slice of the present invention or the film-forming roll of a fourth embodiment in accordance with the invention have the metallic elastic external roller, this metallic elastic external roller is provided with prejudicially with respect to the internal cylinder element, this internal cylinder element is rotatably supported by parts of bearings by the axial members at its two ends, so its rotation of be operatively connected permission between the axial members of motor and internal cylinder element is sent to the metallic elastic external roller by above-mentioned gear mechanism.
Therefore, thin slice of the present invention or film-forming roll even it is driven rotatably, also can be used for already present general thin slice or apparatus for forming thin film, and can not make drive system structurally become complicated, wherein the metallic elastic external roller is certainly rotated under an ideal velocity.
The application is based on Japanese patent application No.2005-275602 that submitted on September 22nd, 2005 and the No.2005-376468 that submitted on December 27th, 2005, and the whole content of these two applications is incorporated herein by reference at this.
Though with reference to definite embodiment of the present invention such as above-mentionedly described the present invention, the invention is not restricted to these embodiment, according to its instruction, those of ordinary skills can make a change.Protection scope of the present invention defines with reference to following claims.
Claims (15)
1. thin slice or film-forming roll comprise:
One internal cylinder element has drum part and axial members, and each axial members is extended along the central axis of this drum part, and this internal cylinder element is rotatably supported by described axial members;
One rubber rollers is installed in the external peripheral surface of this internal cylinder element; With
One elasticity external roller element, be provided with prejudicially with respect to this internal cylinder element, thereby the circumferential surface of this elasticity external roller element contacts with the part of the external peripheral surface of this rubber rollers, and this elasticity external roller element is provided with thin-wall construction and makes with metal.
2. thin slice as claimed in claim 1 or film-forming roll further comprise:
One heat medium service duct is formed in the axial members of this internal cylinder element, is used for supplying heat medium;
A plurality of heat medium access openings, they form and penetrate this internal cylinder element and this rubber rollers; With
Opening, be formed on two ends of this elasticity external roller element, be used for heat medium is discharged to the outside of this elasticity external roller element, this heat medium is accumulated in a lower position of this elasticity external roller element from the supply of heat medium service duct and after flowing through the heat medium access opening.
3. thin slice as claimed in claim 1 or film-forming roll further comprise:
A pair of eccentric side plate is rotatably installed on the axial members of this internal cylinder element, is used for rotatably supporting this elasticity external roller element.
4. thin slice as claimed in claim 3 or film-forming roll, wherein:
The drum part of this internal cylinder element is connected on the vibrating part that integrally forms with axial members.
5. thin slice as claimed in claim 3 or film-forming roll, wherein:
This internal cylinder element is provided with the heat medium passing away that a heat medium service duct that is used to supply heat medium and are used for heat medium is discharged to this elasticity external roller element internal of a structure with convection cell sealing in axial members.
6. thin slice as claimed in claim 3 or film-forming roll further comprise:
A plurality of revolution backstopping assemblies are used for preventing that side plate is rotated, and wherein each revolution backstopping assembly has the mechanism that the revolution stop dog position of side plate can be set with changing on the circumferencial direction of side plate.
7. thin slice as claimed in claim 1 or film-forming roll, wherein:
Drum part is provided with opening in two end, and also therebetween part be connected on the large diameter part that is formed in the axial members of internal cylinder element.
8. thin slice as claimed in claim 7 or film-forming roll, wherein:
The internal cylinder element is provided with the heat medium service duct and the heat medium passing away that is used for heat medium is discharged to this elasticity external roller element internal of the structure with convection cell sealing that are used to supply heat medium in axial members.
9. thin slice as claimed in claim 7 or film-forming roll further comprise:
A plurality of revolution backstopping assemblies are used for preventing that side plate is rotated, and wherein each revolution backstopping assembly has a mechanism that the revolution stop dog position of side plate can be set with changing on the circumferencial direction of side plate.
10. thin slice as claimed in claim 1 or film-forming roll, wherein:
When the internal cylinder element rotates, because the friction that produces in the contact portion between the circumferential surface of the external peripheral surface of rubber rollers and elasticity external roller element, the rotating torques of internal cylinder element is sent to this elasticity external roller element by this rubber rollers.
11. thin slice or film-forming roll comprise:
One internal cylinder element has an elastic drum main body and an axial members, and each axial members is extended along the central axis of elastic drum main body, and this internal cylinder element is rotatably supported by axial members;
One elasticity external roller element, be provided with prejudicially with respect to this internal cylinder element, thereby the circumferential surface of this elasticity external roller element contacts with the part of the external peripheral surface of this internal cylinder element, and elasticity external roller element is provided with thin-wall construction and uses metal to make; With
One gear mechanism when the internal cylinder element is rotated, is used for the rotating torques of internal cylinder element is sent to elasticity external roller element.
12. thin slice as claimed in claim 11 or film-forming roll further comprise:
A pair of eccentric side plate is rotatably installed on the axial members of this internal cylinder element, is used for rotatably supporting this elasticity external roller element.
13. thin slice as claimed in claim 11 or film-forming roll, wherein:
This gear mechanism comprises the outer gear of internal gear and annular, and described internal gear is connected to the axial members of internal cylinder element, and described annular, outer gear is connected to metallic elastic external roller element and is meshed with internal gear.
14. thin slice as claimed in claim 11 or film-forming roll, wherein:
This elastic drum main body is formed by a metal roller element and a rubber rollers, this rubber rollers be installed to the external peripheral surface of this drum elements and use the elastomeric material of rubber like make and
The external peripheral surface of this rubber rollers contacts with the circumferential surface of this elasticity external roller element.
15. thin slice as claimed in claim 12 or film-forming roll further comprise:
A plurality of revolution backstopping assemblies can prevent that side plate is rotated, and wherein each revolution backstopping assembly has the mechanism that the position is only worked as in a revolution that this side plate can be set with changing on the circumferencial direction of side plate.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2005275602 | 2005-09-22 | ||
JP2005275602A JP4326515B2 (en) | 2005-09-22 | 2005-09-22 | Sheet / film forming roll and sheet / film forming apparatus |
JP2005376468 | 2005-12-27 |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1935487A true CN1935487A (en) | 2007-03-28 |
CN100513121C CN100513121C (en) | 2009-07-15 |
Family
ID=37953306
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CNB2006101444984A Expired - Fee Related CN100513121C (en) | 2005-09-22 | 2006-09-22 | Sheet or film-forming roll |
Country Status (2)
Country | Link |
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JP (1) | JP4326515B2 (en) |
CN (1) | CN100513121C (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106945347A (en) * | 2017-04-19 | 2017-07-14 | 云南全心包装印刷有限公司 | The steam pressure roller of stabilizing energy-saving a kind of and apply its steam energy saving circulating system |
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TWI301794B (en) | 2005-09-22 | 2008-10-11 | Toshiba Machine Co Ltd | Sheet or film-forming roll |
JP4721897B2 (en) * | 2005-12-27 | 2011-07-13 | 東芝機械株式会社 | Sheet / film forming roll and sheet / film forming apparatus |
JP4721896B2 (en) | 2005-12-27 | 2011-07-13 | 東芝機械株式会社 | Sheet / film forming roll, crowning control method for sheet / film forming roll, and sheet / film forming apparatus |
JP4704976B2 (en) * | 2006-08-18 | 2011-06-22 | 株式会社日本製鋼所 | Roll adjusting device, thin film forming device, and thin film manufacturing method |
JP4612612B2 (en) * | 2006-12-01 | 2011-01-12 | 株式会社日本製鋼所 | Forming roll, thin film forming apparatus and thin film forming method |
JP4610546B2 (en) | 2006-12-11 | 2011-01-12 | 東芝機械株式会社 | Sheet / film forming roll, sheet / film casting apparatus and fine pattern transfer apparatus |
JP4948267B2 (en) | 2007-05-25 | 2012-06-06 | 東芝機械株式会社 | Sheet / film forming apparatus and sheet / film forming method |
JP5390793B2 (en) | 2008-05-28 | 2014-01-15 | 東芝機械株式会社 | Sheet forming apparatus and sheet forming method |
JP5193682B2 (en) | 2008-05-28 | 2013-05-08 | 東芝機械株式会社 | Sheet / film forming roll, sheet / film casting apparatus and fine pattern transfer apparatus |
JP5193683B2 (en) | 2008-05-28 | 2013-05-08 | 東芝機械株式会社 | Touch roll, main roll, sheet / film casting device and fine pattern transfer device |
DE102009018038B4 (en) | 2009-04-18 | 2011-04-14 | Groß, Heinz, Dr.-Ing. | Metallic roller with elastic surface |
JP5366651B2 (en) | 2009-05-19 | 2013-12-11 | 東芝機械株式会社 | Thin cylindrical workpiece holding jig, thin cylindrical workpiece processing method, and sheet / film forming roll |
JPWO2011018821A1 (en) * | 2009-08-11 | 2013-01-17 | 株式会社ディムコ | Planar body pressing device element |
JP2011091033A (en) | 2009-09-25 | 2011-05-06 | Toshiba Lighting & Technology Corp | Light-emitting module, bulb-shaped lamp and lighting equipment |
JP5566949B2 (en) | 2011-05-20 | 2014-08-06 | 株式会社日本製鋼所 | Sheet forming roll and sheet forming method |
JP2017089676A (en) * | 2015-11-04 | 2017-05-25 | 株式会社日本製鋼所 | Crown adjustment roll |
CN109016460B (en) * | 2018-09-17 | 2024-10-18 | 苏州金纬机械制造有限公司 | Quick-change sealing device for vacuum forming box |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6992272B2 (en) * | 2002-09-24 | 2006-01-31 | Tokuden Co., Ltd. | Thermal processing roller and temperature control apparatus for roller |
-
2005
- 2005-09-22 JP JP2005275602A patent/JP4326515B2/en not_active Expired - Fee Related
-
2006
- 2006-09-22 CN CNB2006101444984A patent/CN100513121C/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106945347A (en) * | 2017-04-19 | 2017-07-14 | 云南全心包装印刷有限公司 | The steam pressure roller of stabilizing energy-saving a kind of and apply its steam energy saving circulating system |
CN106945347B (en) * | 2017-04-19 | 2023-08-18 | 云南全心包装印刷有限公司 | Stable energy-saving steam compression roller and steam energy-saving circulating system using same |
Also Published As
Publication number | Publication date |
---|---|
JP2007083577A (en) | 2007-04-05 |
CN100513121C (en) | 2009-07-15 |
JP4326515B2 (en) | 2009-09-09 |
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