• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to electroplating, in particular to devices for coating a metal endless band. The purpose of the invention is to coat tapes of any size and improve the quality of the deposited metal coating. This is achieved by the fact that endless ribbons (2 or 4) rolled into a ring are concentrated on steel. the base plate, sealing at the same time the junction between the plate and the ends of the tape, In the gap between the tapes filled electrolyte. The anodes are mounted on a bracket placed in turn on a column fixed in the geometric center of ribbons mounted on an edge. The coating is obtained on the inner or outer surfaces of the tapes, depending on their mutual arrangement of the anodes in the electrolyte. The inscribed device reduces the restrictions on the dimensions of the tapes being processed, reduces the consumption of electrolyte and electricity. 22 z. P. f-ly, 5 ill. § (Y)
    公开号:SU1426459A3
    申请号:SU864027004
    申请日:1986-02-24
    公开日:1988-09-23
    发明作者:Хельд Курт
    申请人:Курт Хельд (DE);
    IPC主号:
    专利说明:

    Yu
    but
    four
    ate
    with

    cm
    The invention relates to electroplating, in particular to devices for coating a metal endless band.
    The purpose of the invention is to provide coating of tapes of any size and to improve the quality of the deposited metal coating.
    On the outer surface of the tape 2: placed made of copper cuff 16, which are fixed clamping elements 6, electrically isolated with respect to the plate 1, Tape 2 by means of a rubber strip 3 of rubber or synthetic material electrically insulated
    Fig. 1 shows a device for mounting from a support plate 1. A chrome strip of a press strip; 3 contains an annular body 17, FIG. 2 - a gasket for mounting a press mounted on a plate 1, -Case -17 of an adhesive tape on a base plate; in fig. I — support for current supply, section; on figa - the implementation of the device 15 rial). On the upper side of the housing 17. for simultaneous chrome plating, the two are provided with an annular groove 18, in the press belts; Fig. 5 shows a device that a retainer 19 is inserted; a state for simultaneously chrome-plating both surfaces of the press belt consists of a non-conducting material (rubber or a synthetic material).
    of the two ring-shaped iron guides 20 and 21. The guide is
    you, partial cut.
    20
    20 has a step 22 in the upper part and the device consists of a groove 23 adjoining it. Leit 2 of the base plate 1 (support) made of steel is installed in a clamp 19 on which the rib 20 is installed in the non-step 22 of the guide 20 In the lower state, an infinite tape of a part of one surface adjoining the ring forms. The tape 2 is located 25 raeV to the wall 24, the second one is directed to the gasket 3. Inside the tape 2 concentric on a gasket similar to the gasket 3, a tape 4 is installed, having a height equal to the height of the tape 2. In the space between the tapes 2 and 4 30 is filled electrolyte 5 (chromic acid). The tape 4 on the base plate is fixed by means of clamping 6 and anti-retention 7 elements, which are provided with-. There is a strictly circular arrangement of 35 ribbons. The elements 6 are mounted outside the outer tape 2, and the elements 7 are inside the inner tape 4. At the geometric center of 8 circles of the tapes 4, a support 9, 40 is installed on the support plate 1 electrically insulated from the plate 1 by a gasket 10 of synthetic material.
    21. In the groove 23 there is a ring 25 of circular cross section, which presses the tape 2 against the wall 24. The pressing pressure is increased by the fact that in the groove 23 the ring 25 is affected by a sub pressurized fluid, for example water or the liquid electrolyte itself. This allows the tape 3 to be firmly and tightly sealed to the electrolyte and electrically isolated from the base plate.
    The gasket design ensures reliable annular position of the press band on plate 1. Under certain conditions, it is even possible to refuse clamping 6 or anti-clamping 7 elements and to install tape 2 freely on plate i.
    On the plate 1, the sleeve 11 is located with the possibility of rotation, carrying two copper brackets 12 installed at an angle of 180, the length of which is longer than the radius of the inner tape 4 and smaller than the radius of the outer tape 2. The brackets 12 project over both belts 2 and 4. At the ends of the brackets 12 reinforced several lead rods 13 immersed in electrolyte 5. The rods 13 are arranged with a gap relative to the inner surface 14 of the tape 2 and the outer surface 15 of the press tape 4, not touching these surfaces during rotation of the sleeve i1.
    from the base plate 1. The gasket 3 contains an annular body 17 mounted on the plate 1 (body -17 rial). On the upper side of the housing 17. an annular groove 18 is made, into which a retainer 19 is inserted, the
    consists of non-conductive material (rubber or synthetic
    from the base plate 1. The gasket 3 contains an annular body 17 mounted on the plate 1 (body -17 rial). On the upper side of the housing 17 there is an annular groove 18, into which a retainer 19 is inserted,
    of the two ring-shaped iron guides 20 and 21. The guide is
    0 5 0
    five
    0
    five
    21. In the groove 23 there is a ring 25 of circular cross section, which presses the tape 2 against the wall 24. The pressing pressure is increased by the fact that in the groove 23 the ring 25 is affected by a sub pressurized fluid, for example water or the liquid electrolyte itself. This allows the tape 3 to be firmly and tightly sealed to the electrolyte and electrically isolated from the base plate.
    The gasket design ensures reliable annular position of the press band on plate 1. Under certain conditions, it is even possible to refuse clamping 6 or anti-clamping 7 elements and to install tape 2 freely on plate i.
    The device works as follows.
    For galvanic hard chrome plating of the inner surface 14 of the outer tape 2 of the cuff 6, they are connected via flexible wires 26 to an annular wire 27J which consists of copper cores of a sufficiently large cross section and which in turn is connected to the negative pole of the DC source Lead rods 13 through brackets 12 and support 9 is connected to the positive pole of the DC source. At 8T, outer tape 2 is included as a cathode, and lead rods are included
    3U7.6459
    13 - as the anode. By means of target flanges, the hollow space of the engine 28 and the chain 29 for transfer so that there is non-energy between the walls for a gear 30 fixed to the large gap in the outer space of several tenths of the 11-gauge 11 leads. This gap is simple, in motion, the outer sleeve P op. The space is filled with mercury 46, which 9, so that lead rods 13, provide current transfer from the flange acting as an anode, are rotated through fixed ring flanges with uniform speed. 36 and 37 to the rotating counter flange 39 but the known galvanic principle of the outer sleeve P and from there through the pu from the electrolyte there is a deposition of brackets 12 mounted to the top of the chromium atoms on the opposite part of the outer sleeve 11, further relative to the rods 13 section inner rods 13 (anode).
    The surface 14 acting in motor 28, in turn, strengthened the cathode of the tape 2. Since there is 15 flax on the four-sided tube 32. In order for the rods 13 to rotate, it is necessary to avoid current from the outside for one revolution on the entire inner sleeve 11 through the chain 29 on the engine, a layer of chromium precipitator 28 and a four-sided pipe 32, divided by thickness, are deposited. Above the entire system, the gear wheel is isolated electrically to be pulled over the tent 31. 20 ches from the outer sleeve using
    The support 9 (FIG. 3) consists of hollow insulating films 47, Similar to the cone of a tetrahedral pipe 32, which the structure also allows to avoid by means of a flange 33 and electrical insulation of current from the inner ring gasket 10 screwed to the supports flange 37 through ball bearing plate 1. In a four-sided tube 25 41 to the shaft 40, since the copper rod 34 required for 32 is installed, chrome-plating strong currents can, in which through a hole in the support otherwise, cause a dangerous slab 1 to contact current collector in m mated cross sections of the source of DC. Copper ball bearings. By correspondingly, the rod 34 has a flange 35, at which 30 outer and 36 inner (anode) rods are mounted on the 30th choice of rotational speed, the required total SRI 37 ring flanges, with the thickness of the hard chrome coating remaining between them - You can increase the thickness of the besieged hollow space. Between one layer of a revolution by means of an enlarged tetrahedral tube 32 and gg of the number of rows arranged by lead flange 35, there are no conductive connecting rods forming the anode. This is because the common contact points, due to the ring-shaped location, are insulated 38. The outer toe-wall 11 of the cathode and the anode has a token density in its lower part, the ring-shaped is automatically maintained at all different counter flanges 39 and passing in 40 at a constant level. In the middle, the shaft 40, reinforced with the possibility of a whole ball-bearing under the whole on the entire surface of the tape, is provided by a very uniform thickness of the collar 41 on the inner ring of the hard chrome coating. flange 37 so that this shaft and with it. Moreover, hydrogen embrittlement not the entire outer sleeve 11 can rotate to the place, as a result of which the danger of cracking of the core 34 is around the fixed copper rod. Ball bearings 41 are The surface layer under the action of insulating 42 electrically insulating under tension. Fatigued from the inner ring flange for flexural strength for the sign of 37. The gap between the two balls of the alternating cycle of tapes chrome plated with bearings 41 is fixed by the proposed method, also by the height of the upper spacer 43, higher than that of the lower ball bearing with the help of lower ribbons chrome plated by the spacer sleeve 44 known to it is located on the method.
    insulation plate 45, which, in its gg, the current efficiency for solid chromium is on the flange 35. is about 20%, i.e.
    The annular counter flange 39, at about 80% of the required current of the used sleeve 11, is included in the formation for the electrolysis of water. At the same time, the outer 36 and inner 37 ring cathode forms a gaseous
    hydrogen that is released from the electrolyte. The rising gas bubbles carry away a part of the electrolyte, as a result of which hydrogen gas mixes with chromic acid vapors. If the synthetic film tent 31 (Fig. 4) is pulled over the entire tape system, these vapors will be caught and pulled out
    In order to minimize the power loss, the current leads to the anode and cathode should be made with the minimum possible resistance, therefore, massive copper wires with a correspondingly large cross-section are used,
    If instead of the inner surface of the tape it is necessary to chrome it
    the outer surface, then the tape 20 of the inner and outer surfaces are lagged on the device so that the tape of one single tape 4. For this
    and
    a smaller diameter is included as a cathode, for example, a press strip 4 with a surface to be chrome plated
    three pressing tapes 2.49 and 4 with decreasing diameters concentrically with respect to each other are set (Fig. 1). The connection of the cathode with 25 is drawn one inside the other onto
    the positive pole of the current source is carried out through the leads to the inner side of the belt 4 in accordance with the description given, whereas the anode
    henceforth connected with lead night ribbons. These three pressing flax
    13. Otherwise, the arrangement remains unchanged. In this case, chromium atoms from the electrolyte located in the hollow space precipitate when the current source is turned on and the rotating arms 12 on the outer surface 15 of the sheet 4 form the required chrome plating.
    The proposed device also allows two tapes to be chrome plated at the same time, in which case the inside of the tape located on the outside is chrome-plated and the outside of the tape located on the inside. For this purpose, cuffs corresponding to cuffs 16 located outside the tape are placed on the inner side located inside the tape 4. Cuffs 16 are fixed as
    the outer tape 2 and on the inner gQ part additionally extending from the tale 4 with the help of clamping elements of its iron guides 20 and 21 springs 6, which consist of copper rods
    material with high electrical conductivity (copper). This trunnion ring 53 in several places from below through the holes 54 in the plate 1 is connected by contact plugs 55 with a negative one (FIG. 4) and in this case simultaneously serve for the current supply. 3 for the rest, this device for chromium plating of two tapes (FIG. 4) has the same construction as the device for chromium plating of one tape (FIG. 1), except that here the power transmission from
    55
    With a current source, the tape 49 is included as a cathode.
    the motor 28 to the outer sleeve 11 is carried out through the gear 48.
    Both the cuffs of the outside tape 2 and the cuffs of the inside tape 4 are connected to the negative pole of the DC source, so that. both tapes simultaneously form a cathode. If brackets i2
    rotated with lead rods 13 acting as an anode, the chromium atoms are deposited on the inner surface 14 of the outer tape 2 and on the outer surface 15 of the inner
    tape 4. Thus, one of the surfaces of both tapes is coated with a chrome layer.
    The proposed device allows simultaneous chrome plating.
    and
    Three pressing tapes 2.49 and 4 with decreasing diameters concentrically with respect to each other with a Ustap support plate 1.
    five
    g
    0
    you stand on the gaskets 50-52, and the gaskets 50 and 52 are arranged accordingly to the gasket shown in Fig. 2, so that additional clamping elements for the press bands can be refused. In addition, the inner 4 and outer 2 tapes can be clamped with the usual elements 6 or 7, as a result of which this pad is unnecessarily applied to both tapes 2 and 4,
    However, the middle press strip 49 is clamped in a special pad, with the result that its inner and outer surfaces are not hidden for simultaneous chrome plating, and at the same time the press cast 49 is placed on the plate in a fixed position. Gasket 51 has in its bottom
    With a current source, the tape 49 is included as a cathode.
    V1
    Between the outer 2 and middle 49 bands there is a hollow space 56, and Between the middle 49 and inner 4 bands there is another hollow space 57. The anode 58 is immersed in the hollow space 56, and the anode 59 is immersed into the hollow space 57. Both anodes 58 and 59 are in turn, of lead rods extending from the bracket 12. The shape of the anodes and their contact through the brackets 12 and the support 9 is otherwise logically described. Both hollow spaces 56 and 57 are filled with electrolyte. Since the outer 2 and inner 4 pressing tapes have a zero potential, an electric field is created between the middle pressing tape 49 acting as a cathode and both anodes 58 and 59, so that when the anode is rotated and the voltage source is turned on, the chromium coating is simultaneously deposited and on the inner surface of the press belt 49.
    Invention formula
    权利要求:
    Claims (10)
    [1]
    1. A device for applying a galvanic metal coating on the inner surface of a metal endless belt containing an electrolyte bath, an anode immersed in an electrolyte, and a cathode tape connected to the respective poles of a direct current source, so that, in order to ensure the coating of tapes of any size and improve the quality of the deposited metal coating, the bath is formed on the edge of the base plate with a gap between the outer and inner strips forming a concentric ring, in the geometric center of which a vertical rod is installed on the base plate, electrically isolated from the base plate, on the upper end of which horizontal brackets of length less than the radius of the external tape and larger than the radius of the internal tape are installed, and at the ends of the brackets there are flat, lowered in the electrolyte anodes, connected through brackets and a rod with a positive pole, and at least one tape connected to the negative. tel pole of the source of constant current.
    ju 15 20 25
    -JQ Q
    35
    45
    0
    five
    59, 8
    2. Device of Claim 1, characterized in that the outer tape is connected to the negative pole of the DC source by means of: a sealing cuff adjacent to the outside of the tape, and the inner tape is connected to the negative pole of the DC source with sealing mang, - jets adjacent to the inner side of the tape.
    [2]
    3. A device according to Claim 1, characterized in that an additional tape is placed on the edge between the inner and outer tapes, and an additional anode is mounted on the arm, while one anode is placed in the space between the outer and additional tapes, and the other - in the space between the last and the inner ribbons and the additional band through the base plate is connected to a negative direct current source.
    [3]
    4. The device according to PP.1 - 3, which is based on the fact that the tapes are installed in the O-ring onop-i plate.
    [4]
    5. The device according to claim 4, characterized in that the annular seal is made in the form of an annular "-th element of an elastomeric material with an annular groove, in which is mounted a mount consisting of two annular metal tires, while the metal is made in the upper part with a ledge
    [5]
    for mounting the belt and the groove associated with this step.
    6. A device according to claim 5, characterized in that a circular ring adjacent to the belt is installed in the groove.
    [6]
    7. The device according to PP.5 and 6, which is based on the fact that the metal tires are made of an alloy containing iron.
    [7]
    8. A device according to claim 5, characterized in that the annular element is made of rubber.
    [8]
    9. The device according to claim 5, characterized in that a contact plug with a pin ring, connected to the negative pole of the current source, is contactless with it and the ring-shaped element through the base plate.
    [9]
    10. The device according to PP.1 - 9, of t - l and ch yu e s. so that it
    [10]
    it is equipped with a support and a tent placed on it with an exhaust device.
    P. The device according to PP.1 - lOj is of this kind so that the outer tape is fixed on the support plate by means of clamping elements acting on its outer side of the plate.
    12. The device according to PP.1-11, characterized in that the inner tape is fixed on the support plate by means of plate clamping elements acting on its inner side,
    13. The device according to PP, 1 - 12 j o t - is characterized by the fact that the inner tape is fixed in a circular shape by means of tensioning anti-tightening elements acting on its inner side.
    1A. The device according to Claims 12 and 13, is about the fact that the sealing cuffs are fixed to the surface of the tape by means of plate clamping elements.
    15. A device according to claim 14, characterized in that the cuff is made of copper.
    16. The device according to PP.11 and 12, which is due to the fact that pressing the cuffs to the negative pole of the DC source is carried out from below — through the support plate by means of copper clamping elements.
    17. The device for ptp and 12, about t that the contact cuffs with. the negative pole of the DC source carried on 21
    means of flexible wires from the annular wire placed on the base plate.
    18. A device in accordance with Claims 1 to 17, characterized in that the anode consists of several tight-fitting rods, which are mounted on support brackets.
    19. A device according to claim 1, characterized in that it is vertical; the rod consists of a hollow tetrahedral pipe, in the upper part of which the outer sleeve is mounted for rotation with respect to the tetrahedral pipe, carrying brackets, and inside the four sided pipe and in the hole of the support plate there is a copper rod connected to the negative power source and in contact with the outer sleeve.
    20. A device according to claim 19, characterized in that the outer sleeve is kinematically connected to the engine by a chain transmission.
    21. The device according to claim 19, about tl and i, in that the outer sleeve with the engine through the gearbox.
    22. The device according to claim 19, about tl and - is so effected that the contact of the copper rod with the rotating outer sleeve is made through the liquid metal.
    23. The device according to claim 22, about t l and often because it contains mercury as a liquid metal.
    2
    YU
    sixteen
    W phi
    565 55 57
    FI.5
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    同族专利:
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    EP0194577B1|1990-01-03|
    JPH0240753B2|1990-09-13|
    AT49242T|1990-01-15|
    CN86101406A|1986-09-10|
    JPS61213392A|1986-09-22|
    US4686016A|1987-08-11|
    DE3509388A1|1986-09-18|
    DE3509388C2|1993-12-09|
    EP0194577A3|1987-10-14|
    US4640758A|1987-02-03|
    EP0194577A2|1986-09-17|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3507770A|1967-12-08|1970-04-21|Charles G Fleming|Apparatus for electrolytic refining of copper|
    US3772163A|1971-08-20|1973-11-13|J Jumer|Electrochemical processing of inner surfaces of large vessels|
    US3783110A|1972-12-20|1974-01-01|Us Army|Process for electrodeposition of metals under the influence of a centrifugal force field|
    DE2421296A1|1974-05-02|1975-11-13|Held Kg Adolf|METHOD AND DEVICE FOR MANUFACTURING CONTINUOUS LAMINATES|
    US4001094A|1974-09-19|1977-01-04|Jumer John F|Method for incremental electro-processing of large areas|
    DE2950795C2|1979-12-17|1982-07-29|Standex International Gmbh, 4150 Krefeld|Method for producing an embossed engraving on a metallic endless belt connected by a weld seam|JPH04234765A|1990-08-29|1992-08-24|Xerox Corp|Substrate, belt and electrostatic photographic image forming member as well as their production|
    US5064509A|1990-09-28|1991-11-12|Xerox Corporation|Multilayer belts formed by electrodeposition|
    US5152723A|1990-12-24|1992-10-06|Xerox Corporation|Endless metal belt assembly with hardened belt surfaces|
    CN100390326C|2004-01-06|2008-05-28|上海维安热电材料股份有限公司|Preparation method of composite cladding material and equipment|
    KR100686778B1|2005-01-12|2007-02-23|엘에스전선 주식회사|Apparatus for manufacturing electrolytic metal foil|
    CN111575769B|2020-05-25|2021-05-14|太仓市华夏电镀有限公司|Automatic rack plating production line and rack plating copper-nickel-chromium production process|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE3509388A|DE3509388C2|1985-03-15|1985-03-15|Method and device for the galvanic coating of press belts|
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