| 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 | 一种振动破碎机的机体 | CN201310543699.1 | 2013-11-06 | CN104624928A | 2015-05-20 | 杨福康 |
| 本发明提供了一种振动破碎机的机体,其结构简单,便于安装和维护,减轻了操作人员的劳动强度,快速提升操作人员的作业效率。其包括机体,所述机体的两侧外壁上对称设置有弹簧安装座,其特征在于:所述弹簧安装座顶部设置有吊耳。 | ||||||
| 2 | 一种振动破碎机的机座 | CN201310543800.3 | 2013-11-06 | CN104624929A | 2015-05-20 | 杨福康 |
| 本发明提供了一种振动破碎机的机座,其结构简单,强度高和抗振性能好,可靠性好,同时减轻了机座的重量,便于安装。其包括机座,所述机座下端设有垫脚,所述机座上设置有弹簧安装座,所述弹簧安装座分别包括安装在机座前端的前弹簧安装座和机座后端的后弹簧安装座,所述后弹簧安装座与所述机座之间设有支撑斜板。 | ||||||
| 3 | 一种振动破碎机 | CN201310543645.5 | 2013-11-06 | CN104624927A | 2015-05-20 | 杨福康 |
| 本发明提供了一种振动破碎机,其可以确保砂子在得到充分破碎同时足以运动至筛沙装置处,不会堆积在机体中,改善破碎效果的同时提高了筛砂效率。其包括机体,所述机体通过减振弹簧安装在机座上,所述机体上安装有振动电机,所述机体内安装有破碎筐,所述破碎筐的下方设有斜向设置的输送底板,所述输送底板的前端设有固定在机体内的筛砂装置,其特征在于:所述输送底板上排布有筋板,输送底板的前端的上方设有挡板。 | ||||||
| 4 | 型砂水基粘结剂超声破碎方法 | CN201410846240.3 | 2014-12-31 | CN104550696A | 2015-04-29 | 熊鹰 |
| 本发明属于利用超声波振动实现破碎的技术领域,具体涉及型砂水基粘结剂超声破碎方法。本发明公开了型砂水基粘结剂超声破碎方法,包括:步骤一,将待处理的型砂水基粘结剂置入型砂水基粘结剂不锈钢容器中;步骤二,设定超声波发生器的运行参数;步骤三,启动超声波发生器从型砂水基粘结剂不锈钢容器的侧壁或底部发出超声波。本发明的目的是:解决型砂水基粘结剂静置一段时间后,各种高分子化合物之间发生强烈的聚合反应形成分子团,使得90%的乳胶粒的粒径在200μm以下,只有50%的乳胶粒的粒径在50μm~100μm之间,致使型砂水基粘结剂的粘度升高,导致与铸造砂混合不均匀,无法满足生产使用的问题。 | ||||||
| 5 | 一种型砂回收再生装置 | CN201710846438.5 | 2017-09-19 | CN107497994A | 2017-12-22 | 程练农; 胡建国 |
| 本发明提供的一种型砂回收再生装置,包括振动破碎机、控制中心、垂直提升机、再生机、砂库和混砂机,控制中心远距离控制开启振动破碎机进行块状型砂振动破碎,通过垂直提升机送入再生机进行进一步粉碎分离存储到砂库中,通过混砂机和粘结剂将型砂回收再生。再生机的外部设置第二除尘管,有效的避免型砂粉尘过多而损坏离心盘,造成再生机的整体破损,避免危害现场操作人员的身体健康,避免污染环境。在再生机内部离心盘底部增加耐磨板,通过保护离心盘片叶,减小离心盘损坏,提高离心盘工作效率,减少更换,提高生产效率。 | ||||||
| 6 | 振动提升再生机 | CN201610854933.6 | 2016-09-27 | CN106270375A | 2017-01-04 | 李伟; 叶荣年; 张俊; 李文俊 |
| 本发明提供一种振动提升再生机,包括底座和再生机机体,再生机机体的两端通过减振弹簧固定在底座上,再生机机体的中部设置有振动电机,再生机机体的底端设置有进砂口,再生机机体的顶端设置有出砂口。本发明通过在再生机机体的中部设置振动电机,从而通过振动电机产生一个上下的跳动力,使砂子在惯性力作用下向上互相挤压摩擦并移动,在砂子的互相摩擦移动过程中,砂粒表面的粘结剂膜通过搓擦而去除,从而实现对砂子的再生。 | ||||||
| 7 | 一种振动破碎机的破碎筐 | CN201310543896.3 | 2013-11-06 | CN104624930A | 2015-05-20 | 杨福康 |
| 本发明提供了一种振动破碎机的破碎筐,其可以方便取出与机架分离,便于清理维护,同时加强了破碎筐的结构,使其更为牢固可靠。其包括筐体,所述筐体顶部设置进砂口,所述筐体的侧壁和底板上分别设漏砂孔,其特征在于:所述筐体的底板和侧壁上分布有设有筋板,所述筐体的上部设有连接管。 | ||||||
| 8 | JPS58501663A - | JP50325382 | 1982-09-29 | JPS58501663A | 1983-10-06 | |
| 9 | Vibratory sand reclaiming apparatus | US609108 | 1975-08-29 | US4025419A | 1977-05-24 | Albert Musschoot |
| A foundry sand reclaiming apparatus is provided in which lumps of used foundry sand are introduced into a vibrating chamber. The lumps abrade each other to produce discrete particles of reusable foundry sand. As the sand builds up in the chamber, the vibratory action moves the sand to an exit opening from which it is discharged from the vibrating chamber. The vibratory conveying action produced during the sand abrading step may be reversed to cause irreducible particles to move toward and be removed from a discharge outlet. | ||||||
| 10 | Oscillatory mixing apparatus | US46939974 | 1974-05-13 | US3894721A | 1975-07-15 | BOENISCH DIETMAR |
| An orbitally oscillating mixing apparatus unit for fluent solid material such as foundry molding materials comprising an orbitally oscillated support for a vessel providing a mixingspace-enclosing wall perpendicular to the plane of support oscillation, and a series of spaced blade-like elements secured in the vessel to oscillate therewith, which are elongated perpendicular to the support and located and spaced on a common circular or elliptical curve with a somewhat rotary impeller-like configuration in a set cooperating in action on material as a mixing device; the widths of the blades having generally similar angular dispositions between radial and tangential to the curve, and slanted outwardly in the direction of orbital oscillation, whereby in addition to a main circulating flow induced in material in the vessel opposite to the orbital oscillation direction, the mixing device acts to set up a circulating flow in a path within the device and having also a component parallel to blade elongation, by deflecting on respective blades portions of material from the main flow path inwardly to a region of recombination within the mixing device, there being a constant exchange of materials between the two flow paths. Plural mixing devices within a vessel, plural apparatus units on a common support with feed from one to another, continuous and batch type apparatus, and both horizontally and vertically orbiting apparatus are disclosed.
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| 11 | Foundry sand reducer and reclaimer | US38278973 | 1973-07-26 | US3863847A | 1975-02-04 | DAY WALLACE; POSTELL ALVIN E; POSTELL WILLIAM D |
| A foundry sand reducer and reclaimer using solely vibration to effect formation of individual grains and removal of substantially all organic matter coated on the grains.
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| 12 | Method of and device for continuous preparation of granular material, such as foundry sand | US3712593D | 1971-03-23 | US3712593A | 1973-01-23 | SZATMARI F |
| A method and device for mixing, loosening, aerating and cooling granular material is disclosed where the material to be treated is introduced into two axially arranged cylindrical containers spaced at a small distance one from another to provide a discharging gap therebetween. At least one of the containers is rotated by a driving motor so that the contacting grain layers in the gap will rub together and subsequently are discharged by centrifugal forces from the gap.
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| 13 | Device for vibratingly smashing sand masses | US10300750 | 2002-11-21 | US06915970B2 | 2005-07-12 | Yoshiji Iyoda; Akito Suzuki; Tadashi Sugiura |
| An apparatus for vibratingly smashing sand masses, comprising a sand tank (30) elastically supported and having an inner tank (33) therein for holding sand masses; and vibrating means (21) having unbalanced weights for vibrating the sand tank, including the inner tank, by rotating the unbalanced weights, such that the vibrations of the sand tank draw a Lissajous's figure of approximately a circle. The inner tank (33) is defined by a wall (31) disposed in the sand tank apart from the inner surface (30A) of the sand tank (30), the wall (31) having a plurality of apertures (32). | ||||||
| 14 | Method for purifying particulate mould material | US879868 | 1978-02-21 | US4203777A | 1980-05-20 | Hermann Jacob |
| Method for purifying foundry sand which involves the passage of sand through layers of steel wool supported on perforated discs mounted on a vertical shaft in a standpipe. Perforations in the sides of the standpipe permit air to be blown through the sand as it drops down through the steel wool. The vertical shaft supporting the discs and steel wool is vibrated to cause the sand to move through and past the packs of steel wool. | ||||||
| 15 | Apparatus for mixing materials | US557347 | 1975-03-11 | US3958795A | 1976-05-25 | Dietmar Boenisch |
| Apparatus for mixing fluent materials, especially components for foundry molding compositions, affording a pluralities of containers feeding serially one to another or in parallel discharging to a common acceptor, for batch or continuous operations, permitting simultaneous mixing of all components, either all brought together at once or, as for reactive component mixing, in parallel diverse component group mixing flows, joined for final mixing bringing the reactive components together; and an agitated shooter injector vessel receiving the mixed material, pneumatically actuated to expel material into a mold or the like. | ||||||
| 16 | Apparatus for mixing materials | US27476272 | 1972-07-24 | US3871623A | 1975-03-18 | BOENISCH DIETMAR |
| A method for mixing fluent materials, especially such as components for foundry molding compositions, by establishing at least two circularly moving regions of material, preferably more or less parallel streams advancing with respective vortex-like motions, with transfer of material between the regions or streams; and as basic apparatus therefor, a container driven with an orbital type oscillation, and having internal vertical partitioning to define said regions or vertical paths for the vortex streams, with communication between the defined paths or regions. Apparatus elaborations afford pluralities of containers feeding serially one to another or in parallel discharging to a common acceptor, for batch or continuous operations, permitting simultaneous mixing of all components, either all brought together at once or, as for reactive component mixing, in parallel diverse component group mixing flows, joined for final mixing bringing the reactive components together.
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| 17 | Shakeout and crushing apparatus | US3762656D | 1971-11-09 | US3762656A | 1973-10-02 | DEVE V |
| A shakeout and crushing apparatus for reducing foundry sand to a condition for classification and reuse. The device comprises a shakeout chamber which is caused to orbitally vibrate. The chamber has an upper shakeout deck, a second disintegration deck supporting a plurality of metal balls, and a third wire screen deck. The sand is successively passed and progressively classified through the three decks. Material remaining on the wire screen deck is recycled to a disintegration chamber on the second deck which assures crushing of friable material and the removal of any tramp metal which may be present in the sand.
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| 18 | Apparatus for milling foundry sand | US3425670D | 1967-08-16 | US3425670A | 1969-02-04 | SHAW FRANCIS M |
| 19 | Vibrator | US72297124 | 1924-06-28 | US1791582A | 1931-02-10 | STONEY JOHN T |
| 20 | 鋳物砂処理設備 | JP2016545420 | 2015-08-07 | JPWO2016031529A1 | 2017-06-08 | 茂昭 山本; 原田 久; 久 原田 |
| 砂処理設備全体として、設備容積を小さくすることができると共に設備費用を低減することができる鋳物砂処理設備を提供する。鋳込み後に解枠して、更に鋳物を取り出した後の鋳物砂を処理する、鋳物砂処理設備は、第一室(1a)と第二室(1b)とに分割壁(8)によって分割にされたホッパ(1)と、第一室(1a)の内部に配設されると共に第一室(1a)内に投入された鋳物砂の砂塊を粉砕し、砂塊粉砕後の鋳物砂を放射して前記分割壁(8)に設けられた開口部(9)から第二室(1b)へ供給する砂放射装置(2)と、第二室(1b)に連通接続された空気導入口(11)及び吸引口(10)と、第二室(1b)の下部に配設されると共に、第二室(1b)に貯蔵されている鋳物砂を搬送する第一コンベア(12)と、を備える。これにより、鋳物砂における砂塊粉砕と冷却と貯蔵を一つの設備で行うことができる。【選択図】図1 | ||||||
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