• 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:
    1454701 Neck ring mould H HEYE 9 May 1974 [15 May 1973] 20578/74 Heading C1M A neck ring mould in a moulding station of a glass forming machine has a guide ring 100 supported by a split neck ring 106, 107 for relative rotation with respect thereto and drive means for causing rotation of the guide ring, such rotation being transmitted to a parison carried by the neck ring mould. As shown the drive means comprises pins 99 which transmit the rotary motion of a blowing head 25. The blowing head may itself be driven by engagement with a toothed wheel which is in turn driven as a result of engagement with a toothed rail along which the moulding station moves. Alternatively the guide ring may be driven directly by engagement with a rail.
    公开号:SU826951A3
    申请号:SU742024692
    申请日:1974-05-15
    公开日:1981-04-30
    发明作者:Шаар Лотар
    申请人:Херманн Хейе (Фирма);
    IPC主号:
    专利说明:

    (54) FUNCTIONS KNOTS OF THE GLASS-TREATING MACHINE and its detachable throat tool with a supporting surface for at least one matrix and rotational drive 21. The disadvantage of this technical solution is the low quality of the products due to the operational unreliability of the device. The purpose of the invention is to improve the quality of products. The goal is achieved by the fact that in a forming unit of a glass processing machine, there are at least one non-detachable neck ring with an upper bearing surface for the blowing head and a detachable neck device with a supporting surface for at least one matrix and rotational drive, the neck ring is connected c: with water rotation. Moreover, the throat collar is connected, for example, with a rotational drive gear or a rotational drive crank, or is connected with the possibility of rotation with another throat ring, at least one. The forming unit can be equipped with a drive sleeve connected to the throat ring and a rotational drive of the blow head. Moreover, the drive sleeve is connected to a rotational drive gear drive or a crank, or connected to another rotational sleeve with at least one rotational sleeve. The sides of the glass melt are profiled. Figures 1 and 2 show a forming unit with a blowing device, a partial longitudinal section; on phi section A-A in FIG. 2; Fig. 4 4 double rings of paired matrices, top view; in fig. 5 - two drive blowing heads of coupled dies, bottom view; in fig. 6 shows a rotating table for final molding with paired dies, a partial view from above in FIG. 7 is a schematic section BB in FIG. 6; in fig. 8 throat ring, slit; in fig. 9 crank mechanism, schematic representation. The molding unit 1 comprises a sensing device.2 with a blow head 3, a throat ring 4 and a separating finishing matrix 5. On a stationary or movable mounting plate 6 with the help of a sliding bearing 7, the blower pipe 8 is axially movable 2. Another sliding bearing 9, mounted also on a stationary or movable support plate 10, forms the second support of the pipe 8. The prismatic key 11 prevents the rotation of the pipe 8, A sleeve 12 is installed on the pipe 8 connecting rod 13 crank mechanism (not shown) “The crank mechanism informs the pipe B in a vertical movement. At the lower end of the pipe 8, a pipe 14 is fastened with noMomyi keyed joint, the upper end of which has a spring-loaded supply nipple 15 screwed tightly to supply a medium, such as compressed air, to the blow head 3, the Bottom end of the connecting pipe 14, for example, is made of steel in the form of a sphere and is in contact with the sealing ring 1b of tin and zinc bronze casting. The sealing ring 16 is pressed against the blow head 3 of the locking cap 17 with screws 18. Thus, the spherical surface of the connecting pipe 14 allows the parts 16, 17 and the blow head 3 to self-align with the throat ring 4 to eliminate the gaps between them. The blow head 3 Diametrically screwed with the possibility of axial movement two bolts 19, which enter the holes in the drive sleeve 20, and interact with it, transmit the movement. The drive sleeve 20 using the sliding bearing 21 is rotatably mounted without axial movement on the sleeve 22, which is fixed by screws 23 to the underside of the mounting plate 6. By means of an actuator (not shown) fixed to the mounting plate 6, the driving sleeve 20 is driven through V-belt 24 in the rotational movement. In the lower part of the blow head 3, radially directed driver pins 25 are inserted, which interact with pacnonokeHHbnyM perpendicular to them with pins 26 in the upper ring flange of the neck ring 4. During reciprocating movement of the blowing head 3, either the driver pins 25 or pins 26 can be made fork with a relatively small side clearance to each other. In the middle, the neck ring 4 has an annular lower flange 27, which is included in the soft grooves 28 and 29 of the halves 30, 31 of the split neck tool. At the base, the neck ring 4 abuts the shoulders of the halves 30 and 31 of the tool for forming the neck adjacent to each other in this zone. Consequently, the shoulders of the neck ring 4 and the halves 30 and 31 of the detachable neck instrument form the neck of the jar (not shown. Each half of the 30 and 31 detachable neck instrument is hung on the half 32 and 33 of the neck holder, which are mounted on two legs 34 and 35 s. possibility of relative movement relative to each other to open or close the throat tool. Half of the 30 and 31 of the throat tool using the stops 36, welded to the halves 32 and 33, holding the bodies of the throat tool, and other stops 37 connected to the halves 32 and 33 of the two viitgmi 38, are set relative to the halves 32 and 33 of the bodies of the throat instrument. The 30 and 31 halves of the throat instrument on their lower rim are covered with halves of the separable finishing matrix 5, which are hung on the halves 39 and 40 of the clamping finishing collets, shown only partially in the drawing. The finishing matrix 5 can be made ti integral. The finishing matrixes can be paired into one shape, with the neck ring 4 and 4, respectively. The neck ring 4 is provided in days by the blow head 3 via pins 26. The upper ring flange of the neck ring 4 is made in the form of a gear ring which engages with the ring ring 41, which is fastened with screws 42 to the housing of the neck ring 4 with the possibility of installation movement after centering. 43. 16 Since the throat ring is indirectly set in motion by the throat ring 4, its sensory device can be made without; own drive rotation. In the form of coupled dies, their driving sleeves 20 and 20 (from C are shown in Fig. 5, bottom view) are meshed with each other, for example, using external gear rims 44 and 45. Each of the drive sleeves through its openings 46 drives the corresponding blow head and, finally, the corresponding throat ring. The drive sleeve 20 is driven kinematically by the drive sleeve 20, and the latter directly by the toothed ring 47. In FIG. 6 shows a rotary table 48 for final molding of a press-blow molding machine. The rotary table is equipped with four finishing forms that are not shown in the drawing, which are located at the same distance from each other, and which rotate continuously in the direction of the arrow. Through part of the circumference of the rotating table 4B for the finishing molding, the transfer chain 49 not transferred is shown in detail in the drawing, moving in the guides 50 and carrying only the pairs of neck rings 4 of the machine operating with the paired dies. Each pair of neck rings is suspended on the halves 32 and 33 of the neck tool holder. Each pair of neck rings interacts with each other by means of gearing. An external and internal gear ring ring 47 is pivotally mounted on a rotary table 48 for finishing molding. By external gearing, it interacts with the gearing of the neck rings 4, which are dispersed in the area of the rotary table for the finishing forming. The internal gear engages with the spider 49 of the driver 50, which is preferably mounted on a non-rotating stand of the rotary table 48 for finishing molding. Drive 5.0 can communicate to the gear ring 7 any rotation in the direction of the streaks (Fig. 6).
    The toothed ring 47 (Fig. 7) moves with the upper ring 51 in the ring of the slide bearing 52 fixed concentrically with respect to the rotating table 48 and moves on several supporting rollers 53 dispersed around its circumference and resting on the rigid frame 54.
    A blow head 3, which rotates with a rotating table 48 for finishing forming, cooperates with the upper flange in the form of a tooth of the Vendian of the neck ring 4.
    In addition, in FIG. 7, half 32 of the throat tool holders are shown with two halves 30 and 31 of the detachable neck tool hinged on it, and half of the 39 clamping collet with two halves of the finishing matrix hung on it 5. Half of the 39 clamping collet and half of the finishing matrix 5 are also constant they rotate with the table 48 for the finishing molding and are only sometimes combined with a pair of neck rings 4.
    The annular surface 55 of the throat ring, which comes into contact with the glass, is profiled and contains several spherical concavities or protuberances distributed around the circumference of the surface 55 (Fig. 8). ,
    权利要求:
    Claims (9)
    [1]
    1. Forming unit of a glass-processing machine, comprising at least one integral neck ring with an upper bearing surface for the blowing head and a detachable neck equipment with a supporting surface for at least one matrix, and a rotation drive, characterized in that In order to improve the quality of products, the neck ring is connected to a rotating drive.
    [2]
    2. A knob according to claim 1, characterized in that the neck ring is connected to a rotational drive gear.
    [3]
    3. Node according to Claim 1, characterized in that the throat ring is connected to a rotary drive by a crank.
    [4]
    4. Node on PP. 1-3, characterized in that the neck ring is rotatably connected to another neck ring,
    at least one
    [5]
    5. The assembly according to claim 1, characterized in that it is provided with a drive sleeve connected to the throat ring and a rotation drive of the blow head,
    [6]
    6. A knob according to claim 5, characterized in that the drive shaft is connected to a rotational drive gear.
    [7]
    7 "Assembly according to claim 1, characterized in that the drive sleeve is connected to the rotation drive by a crank.
    [8]
    8. Node on PP. 5-7, that is, in that the drive sleeve is connected with the possibility of rotation with another drive sleeve, at least one.
    [9]
    9. Node on PP. 1-8, characterized in that the neck ring on the side of the glass melt is profiled.
    Sources of information taken into account in the examination
    1. Forward Germany No. 2243489, cl. 32 a 9 / 26j 1973.
    2. USSR author's certificate number 118598, cl. From 03 to 9/26, 1958.
    Gz
    nineteen
    fig.I A - A
    FIG. five
    SO
    33
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    同族专利:
    公开号 | 公开日
    BE814958A|1974-09-02|
    GB1454701A|1976-11-03|
    DE2324953C3|1975-09-11|
    LU70060A1|1974-10-01|
    NL172532C|1983-09-16|
    IT1014177B|1977-04-20|
    FR2229657A1|1974-12-13|
    DD115344A5|1975-09-20|
    IE39756L|1974-11-15|
    JPS5019811A|1975-03-03|
    BR7403933D0|1974-11-19|
    JPS5343168B2|1978-11-17|
    DE2324953B2|1975-02-06|
    DE2324953A1|1974-12-05|
    NL7405891A|1974-11-19|
    IE39756B1|1978-12-20|
    US3951637A|1976-04-20|
    FR2229657B1|1982-01-08|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    RU2455241C2|2009-09-24|2012-07-10|Эмхарт Гласс С.А.|Long-stroke blow head|US1406722A|1922-02-14|brown |
    US636590A|1899-02-16|1899-11-07|John C Triance|Paste-mold glass-blowing machine.|
    US854236A|1905-07-17|1907-05-21|William H Smart|Machine for manufacturing glassware.|
    US877981A|1907-04-10|1908-02-04|George W Henning|Glass pressing and blowing machine.|
    US2348347A|1942-09-05|1944-05-09|Hartford Empire Co|Paste mold machine for forming hollow glass blanks into finally blown articles|
    US3244499A|1962-08-17|1966-04-05|Corning Glass Works|Axially separable neck ring mold assembly|
    DE2212040A1|1971-09-06|1973-09-27|Jenaer Glaswerk Schott & Gen|Process for the production of hollow glass bodies|US4057412A|1973-05-15|1977-11-08|Hermann Heye|Forming station for a machine for forming hollow articles of vitreous material|
    JPS5544655Y2|1975-02-04|1980-10-21|
    JPS52152018A|1976-06-10|1977-12-17|Aisin Seiki Co Ltd|Decorative belt integrally formed with weather strip and its producing method of producing|
    JPS5857306B2|1977-03-09|1983-12-19|Hashimoto Forming Kogyo Co|
    DE2720129A1|1977-05-05|1978-11-09|Heye Hermann Fa|METHOD AND MACHINE FOR PRODUCING HOLLOW OBJECTS WITH MULTIPLE SHAPES|
    US4200449A|1978-04-20|1980-04-29|Investigacion Fic Fideicomiso|Apparatus for blow molding hollow glassware|
    JPS5823727Y2|1979-06-13|1983-05-20|
    DE3024428C1|1980-06-28|1981-12-10|Fa. Hermann Heye, 3063 Obernkirchen|Transport unit for mouth forms of a machine for the production of hollow bodies made of glass or similar thermoplastic materials|
    JPS60213579A|1984-04-06|1985-10-25|Nissan Motor Co Ltd|Attaching structure for resin component part in vehicle|
    JPH0514912Y2|1986-09-05|1993-04-20|
    JPH0537875Y2|1987-01-09|1993-09-24|
    US6032493A|1998-12-07|2000-03-07|Emhart Glass S.A.|H-28 Glass forming machine|
    DE29916216U1|1999-09-15|2000-02-10|Heye Hermann Fa|Device for driving two mold half holders of a glass molding machine|
    DE10144112A1|2001-09-08|2003-03-27|Hermann Heye I I|Blow molding a gob in a blow mold of a blow molding station of a glass molding machine comprises axially moving a block structure into a working position before the mold halves of a blow mold are closed|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE2324953A|DE2324953C3|1973-05-15|1973-05-15|Forming station for the production of hollow glass objects|
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