![]() Double-belt press
专利摘要:
The double belt press comprises deflection drums which are rotatably mounted on bearing supports in a rigid press frame. An upper and a lower, heatable, endless press band are in each case guided by two deflection drums. Between the mutually opposite outsides of the press bands, in the reaction zone, the web of material is guided and pressed under a surface pressure. In the reaction zone, heat is transferred from the press bands to the web of material during the action of the surface pressure. For heating the press bands, they are subjected to a direct or alternating current which flows in the press band and heats the latter as a result of the electrical resistance of the press band material. …<IMAGE>… 公开号:SU1757450A3 申请号:SU884355635 申请日:1988-05-11 公开日:1992-08-23 发明作者:Хельд Курт 申请人:Курт Хельд (DE); IPC主号:
专利说明:
The invention relates to equipment for the continuous manufacture of endless webs of material by pressing. A two-belt press is known for the continuous production of lengthy cloths of material containing heated drums mounted on a frame, heated in bearings, enveloping them and located one above another heated endless steel belts forming between them the upper and lower chambers between the branches of each belt pressures that have a perimeter in the contact zone with the inner side of the tapes, sliding seals and connected with a system for supplying the working medium under pressure. In a known press, the heating of the belts is carried out by their contact with the clamping elements, which does not ensure uniform heating of the belts, which require great effort. The aim of the invention is to improve the heating of the pressable material. A press containing heated drums mounted on a bed rotating around the bearings, enveloping them and located on / i the other heated infinite steel tapes forming between themselves a forming channel located between the branches of each upper and lower pressure chambers that have along the perimeter in the contact zone with the inner side of the tapes, sliding seals and connected to the supply system of the working medium under pressure are provided with means of electric heating of the tapes in the form of insulated on the frame at the inlet and yhodnyh drum with a gap relative thereto arcuate plates bearing brackets evenly spaced along a perimeter of inserts, each of which is mounted with the possibility of intersection (A WITH H 01 VJ СП SP about SA) by means of a rod, a brush holder with a brush for sliding against the ribbons, and a means for supplying a direct current. In this case, the arcuate plates are located on the drums across the width of the endless bands, and each bracket that carries the brush is mounted with the possibility of rotation relative to the drum. In addition, the means for supplying direct current are made in the form of a copper plate attached to the end of the bracket, electrically connected to the brush holder and a direct current source, brushes made of graphite, bronze, copper, and the drums are gummed. FIG. 1 shows a diagram of a two-belt press; in fig. 2 - entrance zone of the press, longitudinal section; in fig. 3 — contact ring means for transferring current to a pressure belt; Fig. 4 is a circuit diagram for heating the pressure belt; FIG. 5 is a schematic of a clamping tape assembly with a circuit diagram for inductive heating of the tapes. A two-blade press machine for continuous production of long cloths of material consists of tension drums 1-4, installed in supports 5 and 6, pairwise covering drums 1,2 and 3,4 of continuous steel strips 7 and 8, Clamping tapes 7 and 8 are tensioned by of known means, for example hydraulic cylinders 9. The end tension drums 2 and 3 are driven and actuate the pressure tapes T and 8, forming a two-press press. The pressure exerted on the web of material 10 is applied through the pressure plates 11 and 12 in a hydraulic way to the inner sides of the pressure tapes 7 and 8 and transmitted to the material web 10. The reactive forces caused by the compression material are transmitted through the pressure plates 11 and 12 and the supporting beams 13 connected to them and 14 on the frame 15 of the press. The end tension drums 1 and 4 located on the inlet side are heated, for example, using a thermal oil that circulates in channels 16 in the casing 17 of the end tension cylinders 1 and 4 (Fig. 2), and thereby heat the pressure straps 7 and 8, The amount of heat perceived by these ribbons is transferred due to their heat capacity to the curing zone and thus gives the web of material 10 to cure it. To create a surface pressure acting on the web 10 in the space between the pressure plates 11 and 12 and the inner side of the branch of the clamping belts 7 and 8 are placed under pressurized working medium. On either side, this space, the so-called pressure chamber 18, is limited to ring-shaped closed seals 19. These seals are installed in the clamping plates 11 and 12 and contact under pressure with the surface of the internal 0 sides of the pressure belts 7 and 8. Thus, the seals 19 act as seals on the sliding surface. Clamping plates 11 and 12 consist of a steel plate and have a rectangular 5 form. A groove is made in the marginal zone along the perimeter, in which a seal 19 is located to limit this zone laterally. Depending on the size of the clamping plates 11 and 12 are one or more 0 inlets (not shown) through which the working medium is supplied to the discharge chamber 18. As the working medium, synthetic oil is used, which corresponds to the predominant, 5 two-belt press operating conditions. However, gas, such as compressed air, can also be used. To heat the pressure plates 11 and 12 can be equipped with transverse or longitudinal holes 20 (Fig. 2), through which the heated thermal oil circulates. When using some of the compression materials perceived by pressure tapes 7 and 8 on the tension end 5 drums 1 and 4 and the heat transferred to the web of material 10 in the curing zone is not enough to completely cure the compression material. Since the heated working fluid is a poor conductor of heat, it is difficult to transfer heat in sufficient quantity from the pressure plates 11 and 12 to the pressure tapes 7 and 8. To overcome this difficulty, the pressure tapes 7 and 8 are heated additionally in a double-sided press resistive or inductive heating through eddy current losses. It has been found that thanks to this it can be achieved significantly. but better heat transfer from pinch 0 belts 7, 8 to the material 10 passing through the curing zone. For electrical resistor heating of pressure tapes 7 and 8 in a two-belt press on the left and right of the end The 5 tension drums 1-4 arrange loopback annular plates 21 and 22, with the help of which a constant electric voltage is applied to the pressure tapes 7 and 8. The negative pole of the constant voltage source 23 conductors 24 are connected to looped loop plates 21 and 22, which are located on ring tension drums t or 4. The positive pole of constant voltage source 23 is connected by loop conductors 25 by means of conductors 25 by loop loop plates 21 and 22. in fig. 5. Based on the resistivity of the pressure belts 7 and 8, a voltage drop is formed on them, which causes it to heat up. Since high grade steels used for pressure tapes are a material with relatively high resistivity, a significant amount of heat is generated. This amount of heat, and thus the temperature rise of the pressure tape, can be purposefully controlled by selecting the applied voltage and the flowing current of the constant voltage source 23. The arcuate plates 21 and 22 have a radius slightly larger than the radius of the end tension drums 1-4. The plate not quite semicircular (approximately circular sector 150 °) is rigidly connected to the supporting element 27 at the fixing points 28 of the end tension drums 1-4 in such a way that it does not touch the clamping belts 7 and 8. On the plates 21 and 22 at a reasonable distance the brush holders 29 are fixed from one another. In the brush holders 29 there are inserts 30, which are designed to fasten the holder of the brushes 31 and can move along the rod 32 relative to the insert 30. In the holder of the brush 31, the brush 33 is fixed, which slidly touches the clamping belts 7 and 8 The brush holder 29 is rotatably mounted around the pivot point 34 on the plate and, together with the movable holder 31, the brushes are mounted so that the brush 32 is optimally in contact with the pressure plate 7 (8). A copper plate 35 is placed on the end of the brush holder 29 facing away from the pressure tape 7 (8), to which the conductors 24 and 25 are supplied from the constant voltage source 23. Other copper conductors 36 move to the holder 31 of the brush 33 from the copper plate 35. Thus, the brush 33 is connected to the corresponding pole of the constant voltage source 23 and thus transmits the voltage to the pressure band 7 (8). The number of brushes depends on the size of the transmitted current. Suitable materials for brushes are, for example, graphite, bronze, copper or similar materials. Brushes 32 can be are located only on the edge of the clamping belt 7 (8), and can be distributed across its entire width at an expedient distance from one another. To avoid unwanted transmission of electric current on the frame of the machine, between the carrier 27 and the node 0 28 fasteners are laid insulating plate (not shown). Similarly, under the fastening screws 37 insulating washers are enclosed. For the purpose of insulation, end tension drums 1-4 may be rubberized. 5 relative to the pressure band 7 (8). In inductive heating using current losses on the clamping tape assembly of a two-belt press, pressure plate 11 (12) has a rectangular recess 38 for installing 0 of the inductor 39, which consists of a rectangular copper plate and is fixed insulated by means of a mount 40 on the pressure plate 11 (12). Through the pressing plate 11 (12), conductors 41 to the inductor of the EZE pass. These conductors 41 are connected to the poles of the alternating voltage source 42. For cooling, in the inductor 39, there may be holes 43 through which cooling fluid flows. 0 The device works as follows. From the voltage source 23, the electric current through the conductors 24 and 25, the plate 35, the brush holder 29 is supplied to the brushes 33 in contact with the belts 7 and 8. As a result of this connection, the belts are heated and in the pressing zone simultaneously with the crimping in the channel between the belts 7 and 8 make the hole of the product. 0 Voltage source 42 supplies alternating voltage across conductors 41 to inductor 39. By means of electromagnetic induction in the driving past the inductor, the clamping belt 7 (8) also 5 induces alternating voltage. Due to this, eddy currents arise in the pressure band 7 (8), which, due to their electrical resistance, heat the pressure band 7 and 8. Frequency 0 alternating voltage depends on the shape of the inductor, the clamping belts 7 and 8, the amount of heat produced and dak further and is determined by a specialist using specific data. 5 If the press plate is electrically isolated in the press frame, it can also be used as an inductor. Then, through the transverse or longitudinal holes 20 in the pressure plates 11, 12 (Fig. 2), cooling liquid can flow to cool it. If heating clamping belts 7 and 8, should be carried out already before the curing zone, the inductor can also be placed in the press frame at the proper place outside the pressure tape. The principles of inductive and resistive heating can be combined in a single two-belt press with each other or with other devices for transferring heat to the pressure belt. The creation of heat by electromagnetic induction in the pressure belt is non-contact, while with resistance heating only insignificant, the surface of the brush required for current transfer is in contact with the pressure belt. Due to this, friction forces are obtained significantly less than in the prior art, which means less drive power and less wear on the pressure belt.
权利要求:
Claims (8) [1] Claim 1. A two-belt press for the continuous manufacture of long webs of material containing heated drums mounted on a bed rotating in bearings, enveloping them and located above one another heated endless steel belts forming between them the upper and lower channels pressure chambers and sliding seals along the perimeter in the zone of contact with the inner side of the belts and connected to the working medium supply system phenomenon, different 22 IS yy P it 5 b FIG This is due to the fact that, in order to improve the heating of the material to be pressed, it is equipped with means of electric heating of the tapes in the form of insulated separately on the frame input and output drums with a gap relative to them arcuate plates, bearing evenly placed around the perimeter of the bracket with inserts, each of which is mounted for movement by means of a rod with a brush holder with a brush to ensure its sliding relative to the bands, and means for supplying direct current. [2] 2.Press according to claim 1, characterized in that the arcuate plates are located on drums across the width of endless bands. [3] 3.Press on PP. 1 and 2, characterized in that. That each bracket carrying the bracket is mounted with the possibility of rotation relative to the drum. [4] 4. A press according to claim 3, characterized in that the means for supplying direct current are made in the form of a copper plate fixed at the end of the bracket, electrically connected with the brush holder and the direct current source. [5] 5. Press according to claim 1-4, characterized in that the brushes are made of graphite. [6] 6.Press on PP. 1-4, characterized in that the brushes are made of bronze. [7] 7.Press on PP. 1-4, characterized in that the brushes are made of copper. [8] 8.Press on PP. 1-7, characterized in that the reels are made gummed. 7 Z1 (ABOUT v. H) 41 W
类似技术:
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同族专利:
公开号 | 公开日 DE3717308A1|1988-12-15| EP0291756A3|1990-05-30| US4921569A|1990-05-01| JPS63303697A|1988-12-12| EP0291756A2|1988-11-23| EP0291756B1|1992-11-11| JPH0380599B2|1991-12-25| CN88103195A|1988-12-28| CN1014038B|1991-09-25|
引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题 DE4317053A1|1993-05-21|1994-11-24|Hymmen Theodor Gmbh|Belt press| DE4335749A1|1993-10-20|1995-04-27|Danubia Petrochem Deutschland|Double-belt press with hydrostatic belt support| RU2734313C2|2016-03-04|2020-10-15|Систем Керамикс С.п.А.|Press device|DE709242C|1939-08-16|1941-08-11|Hermann Meyer|Device for double-sided vulcanization of plate-shaped objects made of rubber or rubber-like compounds or for processing thermoplastic compounds in a continuous operation| US2556008A|1948-12-28|1951-06-05|William F Stahl|Plastic-sealing apparatus| FR1281879A|1960-07-22|1962-01-19|Rheinmetall Gmbh|Method and device for manufacturing or working objects of planar shape| CH552462A|1971-07-14|1974-08-15|Mets Nv Konstruktiewerkhuizen|CONTINUOUSLY WORKING PRESS FOR THE PRODUCTION OF PANELS LIKE CHIPBOARD OR FIBER PANELS.| DE2421296A1|1974-05-02|1975-11-13|Held Kg Adolf|METHOD AND DEVICE FOR MANUFACTURING CONTINUOUS LAMINATES| CH607119A5|1976-08-03|1978-11-30|Landis & Gyr Ag| US4202721A|1978-01-26|1980-05-13|St. Regis Paper Company|Heat sealing mechanism| DE3325578C2|1983-07-15|1985-11-14|Held, Kurt, 7218 Trossingen|Double belt press for the continuous production of laminates| DE3337913A1|1983-10-19|1985-05-02|Held, Kurt, 7218 Trossingen|CONTINUOUSLY WORKING PRESS FOR PRESSING A PRELIMINARY MATERIAL RAIL| DE3416985C2|1984-05-08|1993-02-25|Held, Kurt, 7218 Trossingen, De| DE3534478C2|1985-09-27|1995-01-26|Held Kurt|Double belt press for the continuous pressing of material webs at elevated temperatures| DE3717308A1|1987-05-22|1988-12-15|Held Kurt|DOUBLE BELT PRESS FOR THE CONTINUOUS PRODUCTION OF ENDLESS MATERIALS| JPH01184105A|1988-01-20|1989-07-21|Toa Nenryo Kogyo Kk|Apparatus for manufacturing fiber reinforced plastic material|DE3717308A1|1987-05-22|1988-12-15|Held Kurt|DOUBLE BELT PRESS FOR THE CONTINUOUS PRODUCTION OF ENDLESS MATERIALS| US5352321A|1989-06-29|1994-10-04|Kurt Held|Continuously operating double band press| DE3921364A1|1989-06-29|1991-01-03|Held Kurt|CONTINUOUSLY WORKING DOUBLE BAND PRESS| NL9000366A|1990-02-15|1991-09-02|Beheersmaatschappij P Buitendi|METHOD FOR ATTACHING A METAL SHEET MATERIAL TO A CORE OR BASE PLATE MATERIAL, AND AN APPARATUS FOR CARRYING OUT THIS METHOD| DE4111022C2|1991-04-05|1993-04-01|Fa. Theodor Hymmen, 4800 Bielefeld, De| ATA185093A|1993-09-14|2000-06-15|Danubia Petrochem Polymere|DOUBLE BELT PRESS WITH HYDROSTATIC BELT SUPPORT| DE4415415C2|1994-05-02|1996-12-19|Brandwijk Systems Programming|Continuous belt press| IT1306962B1|1999-01-18|2001-10-11|Pierluigi Bolzoni|METHOD AND PLANT FOR THE HEAT TREATMENT OF WOOD SHEETS| US6908295B2|2000-06-16|2005-06-21|Avery Dennison Corporation|Process and apparatus for embossing precise microstructures and embossing tool for making same| ITMI20020153A1|2002-01-29|2003-07-29|Thermo Engineering Srl|CONTINUOUS SYSTEM FOR PLASTIC LAMINATES INCLUDING MULTILAYER IN COLD PRESS| ITMI20020374A1|2002-02-26|2003-08-26|Thermo Engineering Srl|PLANT AND PROCESS FOR THE CONTINUOUS AND INTERMITTENT PRODUCTION OF LAMINATES WITH MULTILAYER PRESS| JP4248389B2|2003-12-25|2009-04-02|シャープ株式会社|Solar cell module manufacturing method and solar cell module manufacturing apparatus| DE102004002075B4|2004-01-15|2007-01-11|Maschinenfabrik Lauffer Gmbh & Co Kg|Press for making laminates| EP1779996A4|2004-07-26|2013-11-27|Jms Co Ltd|Heater unit and thermal fusion apparatus for synthetic resin members and thermal fusion method for synthetic resin members| FI123522B|2005-04-13|2013-06-14|Raute Oyj|Press plant for pressing disc products| JP5095166B2|2006-09-15|2012-12-12|日清紡ホールディングス株式会社|Method and apparatus for laminating solar cell module by preheating| JP2010274295A|2009-05-27|2010-12-09|Keisuke Sei|Continuous hot press device| CN101590693B|2009-06-12|2012-06-20|杭州珂瑞特机械制造有限公司|Device for hot-pressure welding waistlines of incontinence trousers and training trousers| KR101293892B1|2010-02-22|2013-08-06|엘지하우시스|Apprarus of double steel belt press heated by high frequency induction method| CN103369742B|2012-03-26|2016-03-02|昆山渝榕电子有限公司|High-frequency electrical heating scrolling bands| CN103781205A|2012-10-17|2014-05-07|昆山渝榕电子有限公司|Uniform-temperature electric heating device| CN104416692A|2013-08-22|2015-03-18|赵武敏|Belt wheel push-type machinery feeding device| JP6334795B1|2017-09-05|2018-05-30|プロセスシステム株式会社|Double belt press device and induction heating press module| CN109228471B|2018-09-12|2021-04-30|刘道灵|Intelligent forming equipment| DE102019000767B4|2019-02-02|2021-03-25|Siempelkamp Maschinen- Und Anlagenbau Gmbh|Apparatus and method for manufacturing insulation boards| CN110466027B|2019-08-29|2021-04-16|浙江诚悦家具集团有限公司|Furniture manufacturing wooden board surface shaping treatment system| CN111806045A|2020-07-03|2020-10-23|重庆中航新型材料科技有限公司|Special equipment for producing composite energy-saving plate|
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申请号 | 申请日 | 专利标题 DE19873717308|DE3717308A1|1987-05-22|1987-05-22|DOUBLE BELT PRESS FOR THE CONTINUOUS PRODUCTION OF ENDLESS MATERIALS| 相关专利
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