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 | 大米除尘装置及大米除尘加工工艺 | CN201610456392.1 | 2016-06-22 | CN106076928A | 2016-11-09 | 谭仕波 |
| 本专利公开了大米除尘装置,包括上筒和下筒,上筒固定连接在下筒顶部,上筒上设有散米盘,散米盘上开有进米孔,进米孔内固定连接有网格状的挡杆盘,上筒周向分布有喷水管,喷水管上连接有朝向上筒内侧的雾化喷嘴,下筒轴向上均匀分布有进气孔,下筒内固定连接有吸水筒,吸水筒外侧壁上设有螺旋叶片,吸水筒轴向上均匀分布有吸水孔,吸水筒内填充有吸水材料;公开了大米除尘加工工艺,包括以下步骤:A、送米;B、散米;C、喷水除尘;D、吸水吸灰;本装置是直接使用雾化水配合吸水筒就可将大米表面的灰尘去除,水既可对大米进行降温,又可将灰尘去除,既保证了除尘效果,又保证了大米颗粒质量,同时也减化了工艺步骤,使得除灰效率得以提高。 | ||||||
| 2 | 一种带有烘干功能的电动谷物脱皮装置 | CN201510912552.4 | 2015-12-11 | CN105521846A | 2016-04-27 | 占才明 |
| 本发明涉及农机技术领域,具体地说,是一种可以用来对谷物进行脱皮操作且带有烘干功能的电动装置,包括不锈钢板制成的圆柱形桶体,桶体底部设置有电机,电机的转动轴连接到圆形脱皮磨盘上,电机通过转动轴带动脱皮磨盘工作,脱皮磨盘上设置有若干个磨盘凸块,不锈钢板制成的圆柱形桶体的顶部设置有进料斗,进料斗的底部设置有进料孔,进料孔的边缘设置有可沿着进料斗底部滑动的限位块,不锈钢板制成的圆柱形桶体侧壁靠近脱皮磨盘的位置处设置有多个出料口,不锈钢板制成的圆柱形桶体下部侧壁设置有多个出皮口,不锈钢板制成的圆柱形桶体内壁设置有多根电加热管。 | ||||||
| 3 | 散热式碾米机 | CN201710179622.9 | 2017-03-23 | CN106984373A | 2017-07-28 | 李德胜 |
| 本发明属于碾米设备技术领域,具体公开了一种散热式碾米机,包括圆形机壳和主轴,机壳内设置有推进器和砂辊,推进器和砂辊固接在主轴上,砂辊端头设置有拔料辊,机壳内放入若干吸水树脂颗粒,主轴的一端设有电机,主轴上设有第一皮带轮,第一皮带轮的下方设有第二皮带轮,第一皮带轮与第二皮带轮通过传送带传动,第二皮带轮上设有第一转动轴,第一转动轴上设有第一齿轮,机壳上设有齿圈,齿圈与第一齿轮啮合,机壳壁上设有若干筛糠孔,机壳的上方设有吸盘,吸盘上固接吸糠管,吸糠管一端设有负压风机,机壳一侧设有振动筛,振动筛包括注水缸和筛网。本方案提供一种糙米在进行碾米过程中,大米本体不易碎的散热式碾米机。 | ||||||
| 4 | 分离式碾米机 | CN201710179623.3 | 2017-03-23 | CN106824348A | 2017-06-13 | 李德胜 |
| 本发明属于碾米设备技术领域,具体公开了一种分离式碾米机,包括机壳和主轴,机壳内设置有推进器和砂辊,推进器和砂辊固接在主轴上,推进器与砂辊之间设置有减压缓冲槽,机壳、推进器和砂辊三者之间构成碾米室,砂辊端头设置有拔料辊,主轴的一端设有电机,主轴上设有第一齿轮,第一齿轮的下方设有第二齿轮与之啮合,第二齿轮上设有第一转动轴,第一转动轴上设有第三齿轮,第三齿轮的上方设有第四齿轮并与之啮合,机壳上设有齿圈,齿圈与第四齿轮啮合,机壳壁上设有若干筛糠孔,机壳的上方设有吸盘,吸盘上固接吸糠管,吸糠管一端设有负压风机。本方案提供一种使糙米不会堆积在碾米机底部,且可筛分大米本体和糙米表皮层的分离式碾米机。 | ||||||
| 5 | 一种推进式螺旋调质机 | CN201510690689.X | 2015-10-23 | CN105381834A | 2016-03-09 | 张斌; 刑子替; 孙修成 |
| 本发明涉及一种推进式螺旋调质机,它包括两支撑架,两支撑架的顶端面的连接线与水平面之间具有倾斜角度,一倾斜设置在两支撑架上的壳体,一开设在壳体高端底壁上的出料口,一设置在壳体低端顶壁上的进料口,一连通进料口的进水管;一转动连接在壳体内的旋转轴,若干紧固连接在旋转轴上的螺旋孔叶片,螺旋孔叶片的螺距200-300mm,旋转轴通过一传动装置与一动力源连接。本发明能够有效地提高谷物加工的均匀性、降低物料破碎率,减小动力,降低能耗。 | ||||||
| 6 | 一种碾米机 | CN201710415339.1 | 2017-06-05 | CN107159353A | 2017-09-15 | 邓涛 |
| 本发明涉及一种碾米机,它包括机盖、集糠室、机箱、出糠管、吸糠装置、电机、进料斗、碾米室和控制器;所述集糠室和碾米室设置在机箱内,机箱顶部设置有机盖,进料斗上设置有进米调节阀和栅格板,进料斗下端穿过机盖,螺旋送谷辊右端与电机的输出端连接,螺旋送谷辊左端设有碾米辊,出米管上设置有传感器,所述控制器与传感器和进米调节阀连接。本发明的有益效果是:采用控制器根据精白度和出米量自动调整进米量,智能化程度高;集糠设备位于机箱中,防止污染环境;进料口设置磁铁,防止金属损坏筛网和碾米辊,提高碾米机的使用寿命。 | ||||||
| 7 | 一种大米用筛沙机 | CN201710571586.0 | 2017-07-13 | CN107138206A | 2017-09-08 | 陈伟 |
| 本发明公开了一种大米用筛沙机,包括机箱和传动箱,所述传动箱位于机箱的一侧,所述机箱的上端对称设有固定杆,两个所述固定杆之间设有第一连接杆,所述第一连接杆的一端穿过固定杆并连接有电动机,所述电动机安装于机箱上,所述第一连接杆的下侧通过第一连接轴连接有推杆,所述机箱内壁两侧对称设有第二连接杆,两个所述第二连接杆之间设有第一筛沙器,所述第二连接杆的下端对称设有固定块,所述固定块内设有第一滑槽,所述固定块上设有第三连接杆。本发明的优点在于实现多次筛沙,相比较传统的筛沙机,本装置通过齿轮带动连杆使第二筛沙器可以左右运动,大大的增加了筛沙的效果,操作简单。 | ||||||
| 8 | 一种用于大米加工过程中的胚粒分离设备 | CN201710393051.9 | 2017-05-27 | CN106964413A | 2017-07-21 | 周爱峰 |
| 本发明公开了大米加工设备技术领域的一种用于大米加工过程中的胚粒分离设备,包括机架,所述机架的顶部固定有分离槽,所述分离槽的外壁一侧固定有进料管和注水管,且注水管位于进料管的下部,所述分离槽的外壁另一侧固定有槽段,且靠近槽段的分离槽的外壁上部设有排料孔,利用浮杆将糠壳从排料孔排出,同时浮杆改变胚粒所受的水的表面张力,使漂浮在上层的部分胚粒也沉入水下,通过第二阀门排出水分,打开第一阀门胚粒进入烘干装置内,胚粒分层摆放,方便烘干,该装置可以提高胚粒与糠壳的分离效果,使用方便。 | ||||||
| 9 | 新型家用碾米机 | CN201510998611.4 | 2015-12-25 | CN105435877A | 2016-03-30 | 刘少宏; 范国和; 江亚华 |
| 一种新型家用碾米机,包括外壳,外壳上设有底座,底座上设有支撑座,支撑座上设有电机,电机的输出端上连接有碾米轴,支撑座的一侧设有碾米箱,碾米箱内设有碾米筒,碾米轴延伸入碾米筒内,碾米筒的表面上开有一组条形口,碾米筒的上方开有落料口,碾米箱的下方设有收料箱。本发明有益的效果是:能够免去抽风设备的使用,降低生产成本,简化生产工艺,能够避免出现粉尘飞扬的现象,能够保护人身健康,防止环境污染,并且还能够避免金属杂质对碾米轴、碾米筒造成的摩擦损伤,增加碾米机的使用寿命,实际应用效果好,利于推广。 | ||||||
| 10 | AGRICULTURAL PRODUCT CONTAINING AND CONDITIONING SYSTEM | EP12746013.7 | 2012-08-08 | EP2742301A1 | 2014-06-18 | GREEN, Ole; ANDERSEN, Michael Peter |
| In order, e.g., to provide a containing and conditioning system for an agricultural product, such as seeds or grains, which system reduces an amount of energy used upon containing and conditioning the agricultural product and also improves the quality of the agricultural product, there is disclosed a containing and conditioning system (102, 202) for an agricultural product (104), such as seeds or grains. The system includes a container (106) for containing the agricultural product, a conditioning device (112) for conditioning the agricultural product, a stirring device (114, 204) for stirring the agricultural product, the stirring device including at least one wireless sensor (116) for sensing characteristics of the agricultural product (104), such as a humidity and/or a temperature, and a control device (118) operable for controlling said system in response to said characteristics. | ||||||
| 11 | CONTROLLABLE EMITTER | US14853469 | 2015-09-14 | US20160000024A1 | 2016-01-07 | Hendrik F. Hamann; Levente I. Klein; Sergio A. Bermudez Rodriguez; Michael A. Schappert; Alejandro G. Schrott |
| A controllable emitter of an irrigation apparatus including a drip line and a control station configured to control a pressure of pressurized fluid in the drip line is provided. The controllable emitter is disposable along the drip line and includes a container coupled to the drip line, the container being formed to define an interior and including an inlet through which the pressurized fluid is receivable in the interior from the drip line and an outlet through which the pressurized fluid is exhaustible from the interior, a piston, including a magnetic element, disposed at least partially in the container to occupy a position in accordance with the pressure of the pressurized fluid and a sensor configured to sense a position of the magnetic element and to communicate a sensed position to the control station. | ||||||
| 12 | Controllable emitter | US13969012 | 2013-08-16 | US09179610B2 | 2015-11-10 | Hendrik F. Hamann; Levente L. Klein; Sergio A. Bermudez Rodriguez; Michael A. Schappert; Alejandro G. Schrott |
| A controllable emitter of an irrigation apparatus including a drip line and a control station configured to control a pressure of pressurized fluid in the drip line is provided. The controllable emitter is disposable along the drip line and includes a container coupled to the drip line, the container being formed to define an interior and including an inlet through which the pressurized fluid is receivable in the interior from the drip line and an outlet through which the pressurized fluid is exhaustible from the interior, a piston, including a magnetic element, disposed at least partially in the container to occupy a position in accordance with the pressure of the pressurized fluid and a sensor configured to sense a position of the magnetic element and to communicate a sensed position to the control station. | ||||||
| 13 | AGRICULTURAL PRODUCT CONTAINING AND CONDITIONING SYSTEM | US14237815 | 2012-08-08 | US20140165854A1 | 2014-06-19 | Ole Green; Michael Peter Andersen |
| In order to provide a containing and conditioning system for an agricultural product, such as seeds or grains, which system reduces an amount of energy used upon containing and conditioning the agricultural product and also improves the quality of the agricultural product, there is disclosed a containing and conditioning system for an agricultural product, which may include seeds or grains. The system includes a container for containing the agricultural product, a conditioning device for conditioning the agricultural product, a stirring device for stirring the agricultural product, the stirring device including at least one wireless sensor for sensing characteristics of the agricultural product, which may include humidity and/or a temperature, and a control device operable for controlling said system in response to said characteristics. | ||||||
| 14 | Cooker for grain or the like having preheater | US3561347D | 1969-05-02 | US3561347A | 1971-02-09 | ELLIS CLARENCE E |
| A grain cooker receives the grain at the top thereof in a preheating zone which derives heat from otherwise wasted boiler exhaust. In the preheating zone, the grain pores are opened preparatory to proper cooking. The preheated grain then gravitates through a main heating zone around a boiler where rising steam contacts the open-pored grain and is immediately absorbed. Cooked grain discharges at the bottom of the cooker.
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| 15 | Grain and bean cooker | US26474D | USRE26474E | 1968-10-08 | ||
| 16 | Improvement in methods of casting | US164198D | US164198A | 1875-06-08 | ||
| 17 | CONTROLLABLE EMITTER | US13969012 | 2013-08-16 | US20140252133A1 | 2014-09-11 | Hendrik F. Hamann; Levente L. Klein; Sergio A. Bermudez Rodriguez; Michael A. Schappert; Alejandro G. Schrott |
| A controllable emitter of an irrigation apparatus including a drip line and a control station configured to control a pressure of pressurized fluid in the drip line is provided. The controllable emitter is disposable along the drip line and includes a container coupled to the drip line, the container being formed to define an interior and including an inlet through which the pressurized fluid is receivable in the interior from the drip line and an outlet through which the pressurized fluid is exhaustible from the interior, a piston, including a magnetic element, disposed at least partially in the container to occupy a position in accordance with the pressure of the pressurized fluid and a sensor configured to sense a position of the magnetic element and to communicate a sensed position to the control station. | ||||||
| 18 | Self-contained mobile system and method for processing fresh corn | US812457 | 1997-03-05 | US5884853A | 1999-03-23 | David W. Higgins |
| A mobile system for processing raw ears of corn includes a first mobile processing trailer for receiving raw unhusked ears of corn, holding the ears and disbursing the ears to a first conveyor. The first conveyor transports the ears to a second mobile trailer for further processing. The second mobile trailer includes a husker for removing corn husks and corn silk from the ears, a cutting mechanism for removing kernels from the ears after the husks and silk are removed, and a second conveyor for transporting the corn husks, corn silk, and corn cobs from the second trailer. A third conveyor transports the kernels to a third mobile trailer for further processing. The third mobile trailer includes a cooling tank for chilling the kernels and a conveyor for transporting the kernels to transportation receptacles for transportation to a cannery for further processing. | ||||||
| 19 | Method of preparing stabilized whole grain flour | US531670 | 1990-06-01 | US5066506A | 1991-11-19 | Dean W. Creighton; John D. Efstathiou; John A. Merboth |
| Disclosed are high temperature, high pressure, short residence time methods for heat treating whole cereal grains which upon milling form raw whole grain flours which exhibit enhanced storage stability. The heat treatment step involves introducing the cereal grain into a zone of high pressure and temperature. Conventional continuous cereal puffing gun apparatus are useful to practice the process. Thereafter, the whole grain is introduced to a second zone of lower pressure but wherein the pressure differential is insufficient to cause puffing. After cooling without further drying, the treated grains can be milled to form the raw whole grain flours. The whole grain flours are especially useful in the preparation of whole grain cereal products such as whole grain R-T-E corn flakes. | ||||||
| 20 | Method of grinding and cooking whole grain | US321907 | 1981-11-16 | US4463022A | 1984-07-31 | Mark H. Sterner; Ronald O. Zane |
| A method and apparatus are disclosed for treating a grain by crushing under controlled conditions of humidity, temperature, and quality of impact. The process is particularly adapted for making instant tortilla flour (masa harina) from a mixture of corn and lime and can be conducted continuously. In a preferred embodiment, grain with added lime is fed in a grinding chamber and ground therein to a fine powder by action of breaker bars which crush the grain against breaker plates mounted along the circumference of a grinding chamber cage. During grinding the grain product are subjected to a steam atmosphere generated from the grain moisture content, frictional heat and applied heat. The steam atmosphere is maintained by blocking the ingress of air while feeding in grain and extracting flour, and a cooked dry flour product is obtained. Various parameters of operation are controllable, resulting in energy savings, avoiding generation of waste water, drying of the product, and processing losses, while also shortening total processing time. | ||||||
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