子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 微粒制模机 | CN201110035921.8 | 2011-02-10 | CN102145379A | 2011-08-10 | 弗朗西斯科哈维尔·卡尔沃波萨; 凯撒·马尔科赛拉诺; 博尔加·加西亚维拉尔; 米克尔·比坎迪比坎迪; 鲁本·梅尔乔菲格罗亚 |
| 本发明涉及一种微粒制模机,其包括制模腔(3),在前端封闭所述制模腔(3)的前板(1),以及在所述前端相对的后端封闭所述制模腔(3)的后板(2)。在微粒压缩和微粒提取期间,所述前板和后板逐步移位。该微粒制模机包括第一移位系统和第二移位系统,所述第一移位系统用于移位所述前板并包括至少一个第一电机(4),所述第二移位系统用于移位所述后板并包括至少一个第二电机(5)。 | ||||||
| 2 | 一种具有铸件承接功能的翻箱装置 | CN201611072760.9 | 2016-11-29 | CN106424564A | 2017-02-22 | 张志红; 谢金法; 岳菊梅; 金鑫; 杜新武; 贺志涛; 高春艳; 陶满; 王东洋; 朱越; 刘卫想 |
| 本发明涉及消失模铸造设备领域,公开了一种具有铸件承接功能的翻箱装置。包括机架、接件栅格板、翻转架以及第一推拉机构和第二推拉机构;机架包括底座以及四根立柱,立柱的上端均设有轴承座,轴承座中通过轴承设有转动轴,接件栅格板的一端与位于外侧的两根立柱上的转动轴固定连接,翻转架的一端与位于内侧的两根立柱上的转动轴固定连接,在翻转架上远离其与相应立柱的铰接点的一端设有将砂箱与翻转架定位的定位机构以及将砂箱压紧在翻转架上的压紧机构;第一推拉机构的两端分别铰接底座以及接件栅格板的底面,第二推拉机构的两端分别铰接底座以及翻转架的中部。避免落砂造成的铸件变形和裂纹,从而达到提高产品合格率,降低生产成本的目的。 | ||||||
| 3 | 一种砂模铸造的上下料搬运系统及其控制方法 | CN201610649672.4 | 2016-08-09 | CN106077524A | 2016-11-09 | 李翔华; 袁小云; 杨贵英 |
| 本发明涉及一种砂模铸造的上下料搬运系统,包括若干个铸造机、机器臂、控制柜、输送带、滑动装置、机械夹具和待加工台,所述铸造机设置于所述输送带的两侧,所述机器臂可滑动地设置于所述输送带上,所述机械夹具安装于所述机器臂上,所述滑动装置设置于所述机器臂的下端并安装于所述输送带的上方;所述待加工台设置于所述输送带的一端。本发明的上下料搬运系统结构简单,可自动完成模型上料铸造,搬运模型下料的作业过程,实现自动化生产搬运模型,满足生产搬运的工序需求,市场前景广阔;本发明的控制方法控制所述机器臂动作的精准度高,通过相关机械和电器元件便可能快速地实现上下料搬运模型的工作,控制过程简单,提高工作效率。 | ||||||
| 4 | 一种用于制作湿型砂铸型的水平有箱造型机 | CN201610336308.2 | 2016-05-20 | CN105750510A | 2016-07-13 | 许云东 |
| 本发明公开了一种用于制作湿型砂铸型的水平有箱造型机,其包括钢结构框架、加砂斗、加砂位、压实位、上压实机构、下压实机构、上模板、下模板和下基座;造型机的上部两边为两个固定加砂工位,在两个固定加砂工位的中部为固定压实工位,加砂斗设置于固定加砂工位的上部,固定压实工位包括上支架和上压实机构,上支架固定设置于两个加砂斗之间,在上支架的中部固定连接有上压实机构;在两个固定加砂工位的下方设置有能够直线运动的模板穿梭小车,模板穿梭小车连接有驱动装置。本发明中的造型机将现有技术造型机中的许多步骤浓缩到3个并发的步骤里面完成,极大地提高了造型机的造型效率,降低了造型机的成本,提高了造型机的可靠性。 | ||||||
| 5 | 一种耐磨件铸造用翻箱脱砂系统 | CN201511032398.8 | 2015-12-31 | CN105414493A | 2016-03-23 | 孙爱民; 张颢; 施懋祥; 张俊 |
| 本发明公开了一种耐磨件铸造用翻箱脱砂系统,属于耐磨件铸造设备领域。本发明包括砂箱翻转装置和脱砂装置;砂箱翻转装置包括旋转臂、机架、伸缩臂、底座和砂箱,机架固定于底座上,旋转臂铰接在机架上,伸缩臂与旋转臂连接,该伸缩臂用于推动旋转臂以旋转臂与机架的铰接点为圆心转动;旋转臂用于安装砂箱;脱砂装置位于砂箱翻转装置的一侧,该脱砂装置包括输送槽、支撑机构、振动机构和输送槽底座,输送槽通过支撑机构安装在输送槽底座上,输送槽与振动机构相连,该振动机构用于将输送槽内的物料从输送槽的物料输入端向输送槽的物料输出端振动运输。本发明主要实现了安全可靠进行砂箱翻转操作的功能,且适合进行大批量脱砂作业。 | ||||||
| 6 | 铸造砂型生产系统及方法 | CN201310682281.9 | 2013-12-13 | CN104707944A | 2015-06-17 | 胡昌军; 王锡安; 凌云飞; 孙宝君; 张复兴; 刘敬豪; 王哲; 刘峻岭; 赵庚宁 |
| 本发明提供一种铸造砂型生产系统及方法。该系统包括:初级制备线和后处理加工线,初级制备线包括平行设置的第一初级辊道、第二初级辊道和第三初级辊道,且第一初级辊道运行方向与第二初级辊道和第三初级辊道相反,所述第一初级辊道旁设置有混砂机,第二初级辊道和第三初级辊道上均设置有翻转起模机;后处理加工线包括均与第一初级辊道平行设置的第一后处理辊道和第二后处理辊道,第一后处理辊道和第二后处理辊道的运行方向均与所述第一初级辊道相同,且在第一后处理辊道和第二后处理辊道运行方向的末端处设置有一个合箱机。本发明的系统可以提高砂型生产效率,节约成本。 | ||||||
| 7 | 微粒制模机 | CN201110035921.8 | 2011-02-10 | CN102145379B | 2015-02-04 | 弗朗西斯科哈维尔·卡尔沃波萨; 凯撒·马尔科赛拉诺; 博尔加·加西亚维拉尔; 米克尔·比坎迪比坎迪; 鲁本·梅尔乔菲格罗亚 |
| 本发明涉及一种微粒制模机,其包括制模腔(3),在前端封闭所述制模腔(3)的前板(1),以及在所述前端相对的后端封闭所述制模腔(3)的后板(2)。在微粒压缩和微粒提取期间,所述前板和后板逐步移位。该微粒制模机包括第一移位系统和第二移位系统,所述第一移位系统用于移位所述前板并包括至少一个第一电机(4),所述第二移位系统用于移位所述后板并包括至少一个第二电机(5)。 | ||||||
| 8 | MACHINE FOR PRODUCING SAND MOULDS | EP14725048.4 | 2014-05-07 | EP2999560A1 | 2016-03-30 | CALVO POZA, Francisco; OCIO IGLESIAS, Gonzalo; ECHEVARRÍA CASTAÑO, Ignacio; EGUIDAZU ALDALUR, Ander; MARCO SERRANO, César; LÓPEZ LUCAS, Raúl |
| Machine for the production of sand moulds comprising a machine structure with a moulding chamber (3), a front plate (1) and a rear plate (2). The front plate (2) and rear plate (3) are arranged for pressing sand within said moulding chamber so as to form a sand mould, and are arranged for receiving respective pattern plates (200) for providing front and rear surfaces of the sand mould with corresponding patterns. The machine further comprises a robot arm (6) arranged for replacing the pattern plates (200), said robot arm being (6) attached to the machine structure, such as to a side (101) of the machine structure. | ||||||
| 9 | CAM DEVICE FOR REMOVING AND TILTING THE FRONT PLATE IN A VERTICAL MOLD CASTING MACHINE | EP01903796.9 | 2001-02-08 | EP1219830A2 | 2002-07-03 | ARANA ERANA, Agustin |
The object of the device is to provide a novel cam device applicable to sand moulding machines in which the cam (1) has its active surface (2) facing downwards to prevent sand or dirt from being deposited between said cam (1) and the its supporting follower (10), which the machine is provided with to cause the swivelling of the said cam. For this purpose the cam (1) is hinged at a point (3) to a frame (4) which may move longitudinally, while on another point (5) it is hinged to a connecting rod (6) which is in turn hinged on its opposite end at the point (8) to the front swinging plate (7) of the sand mote moulding machine, with said front plate (7) hinged at the point (9) on its rearmost edge to the frame (4). |
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| 10 | Foundry core or mold making machine | EP81301757.1 | 1981-04-21 | EP0045121B1 | 1985-03-20 | Janke, Gilbert J. |
| 11 | Furnace Assembly | US14834584 | 2015-08-25 | US20160052048A1 | 2016-02-25 | Donald Joseph Selmi |
| A furnace assembly for dewaxing investment casting molds includes a housing having a top and a bottom and sides and extends along an axis to define a cavity. A plurality of tiles are supported in a spaced relationship with the bottom of the housing and define a pair of lower chambers for directing the wax vapors out of the cavity. A plurality of trays having apertures are supported by the tiles for moving molds through the housing. Chimneys connect to the lower chambers and a passageway is defined by the tiles for evacuating the wax and wax vapors from the cavity to the lower chambers and out through the chimneys. A pair of lower burners extends into the lower chambers for igniting wax vapors in said lower chambers. The heat from the lower chambers radiantly heats up portions of the furnace assembly that are disposed above the lower chambers. | ||||||
| 12 | MOTE MOLDING MACHINE | US13024495 | 2011-02-10 | US20110195143A1 | 2011-08-11 | Francisco Javier Calvo Poza; Cesar Marco Serrano; Borja Garcia Villar; Mikel Bikandi Bikandi; Ruben Melchor Figueroa |
| The invention relates to a mote molding machine which comprises a molding chamber (3), a front plate (1) closing the molding chamber at a front end and a rear plate (2) closing the molding chamber (3) at a rear end, opposite the front end. The plates shift gradually during the mote compression and extraction phases. The machine comprises a first shifting system for shifting the front plate and which comprises at least one first electric motor (4), and a second shifting system for shifting the rear plate and which comprises at least one second electric motor (5). | ||||||
| 13 | Device for movably supporting an upper mold tool | US09829440 | 2001-04-10 | US20010028901A1 | 2001-10-11 | Cord-Hermann Hagenmeyer |
| A device for supporting an upper mold tool (7) for movement with respect to a lower mold tool (25). Compared to known devices with simple pivoting supports, in which the space conditions for handling the workpieces with the mold tool opened are very restricted, the upper mold tool (7) is supported on a frame (1) by means of a multi-bar mechanism, such as a four-bar mechanism (10, 11) or a six-bar mechanism to provide a very wide opening of the space between the two mold tools. | ||||||
| 14 | Shell molding apparatus | US626605 | 1996-04-02 | US5711365A | 1998-01-27 | Akio Shimizu; Taiti Yoshikawa; Hiroshi Suzuki; Shigeyuki Kinoshita; Keiji Wada; Yasuo Kawai |
| A shell molding apparatus includes a lower die and an upper die. The lower die includes a plurality of shell molding inserts, each having the shape of a halved cylinder, spiny insert receiving recesses which are formed in undercut portions formed by curved surfaces of adjacent shell molding inserts, and spiny inserts retractably provided in the spiny insert receiving recesses, each spiny insert having a curved surface of the same curvature as the curved surface of the shell molding insert and provided with many protrusions on the curved surface. The upper die has a plurality of continuously formed recesses corresponding to the plurality of shell molding inserts of the lower die. The shell molding apparatus further includes a spiny insert actuating mechanism for projecting/retracting spiny inserts by operating withdrawal pins connected to the spiny inserts, a stopper mechanism for positioning the withdrawal pins at a position where the withdrawal pins exhibit the same thermal expansion, and a thermal expansion absorbing mechanism for the withdrawal pins. The shell molding apparatus further includes a sand releasing mechanism for preventing shell sand from stagnating between spiny insert receiving recesses and the spiny inserts, resulting in smooth performance of the spiny inserts. | ||||||
| 15 | Adjustable guide slippers for matchplate molding machine | US776099 | 1985-09-16 | US4657064A | 1987-04-14 | William A. Hunter |
| The cope flask and drag platen of a matchplate molding machine are supported for up and down movement on vertical guide rails by sliding bearings or slippers located adjacent to corners of the flask and the platen. Each slipper includes a mounting block and a separate bearing pad connected to the mounting block by screws which may be independently adjusted to establish uniform face-to-face contact between the bearing pad and the rail. The screws also may be quickly released to enable removal and replacement of the bearing pad without disturbing the position of the mounting block. | ||||||
| 16 | Method and apparatus for freeing a pattern or shaping element from foundry material | US528297 | 1983-08-31 | US4593740A | 1986-06-10 | Eugen Buhler |
| A foundry mold making machine is so designed that at the start of the process of moving the pattern assembly clear of the mold, compressed air is supplied through the pattern assembly until a gap or narrow space has been formed between the mold and the pattern. In this respect an air-tight connection is maintained between the pattern plate support and the flask until the compressed air supplied to the gap has been relaxed. In this way it is possible to make certain that there is no damage to the edges of the mold by suddenly letting off air. | ||||||
| 17 | Automatic cone and mold-making machine | US131915 | 1980-03-20 | US4295515A | 1981-10-20 | William L. Tordoff |
| An automatic no-bake core and mold-making machine. A frame is rotatably mounted on a base and carries a plurality of core-forming patterns around its periphery. Plates surround the patterns to form a continuous, flat surface interrupted only by the pattern cavity. A mixing machine located adjacent to the rotating frame continuously pours sand and binder on the patterns and surrounding plates. A stationary plow under which the plates and patterns pass continuously wipes excess sand and binder into the next succeeding pattern passing below the plow. Means are provided for ejecting the cores from the patterns after they are cured. | ||||||
| 18 | Foundry molding machine | US742860 | 1976-11-18 | US4100961A | 1978-07-18 | Harold R. Goss; Michael A. Krutilla; Wendell M. Doolin |
| A foundry molding machine is disclosed wherein a core or mold is molded from moldable material such as sand in first and second mold boxes having a cavity. The cavity is filled with the sand and is then cured to form the mold. The first and second mold boxes are separated so that the mold remains in the first mold box with a downwardly facing cavity. Any of several means may be used to assure that the mold remains in this downwardly facing cavity. A transfer conveyor is then moved to a position closely beneath the mold. The first mold box is then moved upwardly as ejection means acts on the mold to eject it downwardly onto the closely spaced transfer conveyor. The transfer conveyor then moves out from underneath the first mold box to remove the completed mold and the cycle repeats. The foregoing abstract is merely a resume of one general application, is not a complete discussion of all principles of operation or applications, and is not to be construed as a limitation on the scope of the claimed subject matter. | ||||||
| 19 | Method for lifting flasks and molds | US3643725D | 1969-05-15 | US3643725A | 1972-02-22 | FISMER WILLIAM L |
| An arrangement is disclosed for improving the handling or stripping of the flasks or molds of the type which are used to cast large items such as cast metal plates or frames. A system is provided for lifting the flask or mold vertically from the pattern with assurance that each portion or part is moved at exactly the same rate and amount as every other part.
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| 20 | Foundry mold | US68075957 | 1957-08-28 | US2997757A | 1961-08-29 | ERWIN BUHRER; WALTER GOETZ |
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