会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • Fluidized bed apparatus and filter washing method for fluidized bed apparatus
    • 流化床设备的流化床设备和过滤器清洗方法
    • US20080006290A1
    • 2008-01-10
    • US11822529
    • 2007-07-06
    • Kuniaki YamanakaShigemi IsobeKazuomi UnosawaNarimichi TakeiYuriko HiraiTakashi Terada
    • Kuniaki YamanakaShigemi IsobeKazuomi UnosawaNarimichi TakeiYuriko HiraiTakashi Terada
    • B08B3/04B01J8/08B08B3/12B08B9/04
    • B08B3/04B01D41/04B01J2/16B08B3/02B08B3/102B08B3/12B08B5/02B08B9/00
    • A cartridge filter 7 is vertically movably placed in a processing vessel 1 having a cylindrical profile. An ultrasonic washer 55 is fitted to the lateral wall 3a of the spray casing of the processing vessel 1. Washing liquid 56 is injected into the processing vessel 1 and the filter 7 is moved downward and immersed in the washing liquid 56. The washer 55 is activated under this condition to wash the filter 7. Since the washer 55 is arranged near the filter 7, the ultrasonic oscillation is easily transmitted to the filter 7 to efficiently remove the foreign objects adhering to the filter 7. Thus, with this arrangement, it is possible to wash the filter 7 in the processing vessel 1 without removing the filter 7 from a fluidized bed apparatus. In a filter washing apparatus 101, a cartridge filter 103 is contained in a processing vessel 102 and immersed in washing liquid 110. The filter 103 is rotatably suspended below an upper lid 104 by means of a retainer 107a, 107b, a rotary joint 108 and a filter anchoring knob 111. Then, it is washed in the washing liquid 110 as it is driven to rotate by a jet flow 144.
    • 筒式过滤器7可垂直移动地放置在具有圆柱形轮廓的处理容器1中。 超声波清洗机55安装在处理容器1的喷雾罩的侧壁3a上。 将洗涤液56注入到处理容器1中,并且过滤器7向下移动并浸入洗涤液体56中。 在这种条件下,洗涤器55被激活以清洗过滤器7。 由于垫圈55布置在过滤器7附近,所以超声波振荡容易地传递到过滤器7,以有效地去除附着在过滤器7上的异物。 因此,通过这种布置,可以在处理容器1中清洗过滤器7而不从流化床装置中移除过滤器7。 在过滤器洗涤装置101中,筒式过滤器103容纳在处理容器102中并浸没在洗涤液110中。 过滤器103通过保持器107a,107b,旋转接头108和过滤器锚定旋钮111可旋转地悬挂在上盖104的下方。 然后,当它被驱动以通过喷射流144旋转时,它在洗涤液体110中被洗涤。
    • 2. 发明申请
    • Coating apparatus
    • 涂装设备
    • US20070209582A1
    • 2007-09-13
    • US11708319
    • 2007-02-21
    • Narimichi TakeiKazuomi UnosawaKuniaki YamanakaShigemi Isobe
    • Narimichi TakeiKazuomi UnosawaKuniaki YamanakaShigemi Isobe
    • B05C5/00
    • B05B13/0257
    • A rotating drum 3 has ventilation sections 6 that can ventilate the inside of the drum and the outside of the drum in the coating processing. To the ventilation sections 6, a panel unit 41 having arranged therein plural hollow pipes 42 through which cold water passes is attached. The hollow pipes 42 are fixed to a base plate 44 in parallel with each other, and a gap “G” is provided between the adjacent pipes. The base plate 44 is provided with a communication hole 45, and the hollow pipes 42 are so arranged as to face the communication hole 45. To both ends of the hollow pipes 42, charge/discharge collecting pipes 46a and 46b are fixed. In the coating processing, cold water is arbitrarily supplied to the hollow pipes 42 through the charge/discharge collecting pipe 46a to cool the drum 3 so as to bring about the temperature difference between the inside of the drum and processing objects, which can prevent coating base materials from adhering to the inside of the drum.
    • 旋转滚筒3具有通风部分6,其在涂覆处理中可以使滚筒的内部和滚筒的外部通风。 在通风部6中,安装有冷却水通过的多个中空管42的面板单元41。 中空管42彼此平行地固定在基板44上,在相邻的管之间设置间隙“G”。 基板44设置有连通孔45,中空管42布置成面向连通孔45。 在中空管42的两端固定有充放电收集管46a,46b。 在涂布处理中,冷水通过充放电收集管46a任意地供应到中空管42,以冷却滚筒3,从而导致滚筒内部和加工对象之间的温度差,这可以防止 涂覆基材从粘附到滚筒的内部。
    • 3. 发明申请
    • Fluidized-bed apparatus
    • 流化床设备
    • US20100178202A1
    • 2010-07-15
    • US12308267
    • 2007-05-21
    • Shigemi IsobeKuniaki YamanakaKazuomi UnosawaNarimichi Takei
    • Shigemi IsobeKuniaki YamanakaKazuomi UnosawaNarimichi Takei
    • B01J8/18
    • F16J15/46F16J15/008
    • Processing vessel (1) is formed by overlaying a filter casing (2), a spray casing (3), a material container (4) and an air supply unit (5). Airtightnesses between respective units are maintained by airtight junctions (61 to 63). In the airtight junction (61), two seal portions (91 and 92) are radially provided, and U-seals (64 and 65) are contained. The U-seals (64 and 65) vertically move within seal grooves (67 and 68) through supply and exhaust of air to/from cylinder chambers (69 and 71), to thereby attain close contact with or detachment from flange (74). During particulate material processing, the airtightness of the seal portion (91) is maintained by the U-seal (64). During processing vessel washing, the airtightness of the seal portion (92) is maintained by the U-seal (65), to thereby prevent exposure thereof. Simultaneously, the U-seal (64) is raised, to thereby attain washing of the seal portion (S1) during the particulate processing.
    • 加工容器(1)通过覆盖过滤器壳体(2),喷射壳体(3),材料容器(4)和空气供应单元(5)而形成。 各单位之间的气密性由气密接头保持(61至63)。 在气密接合处(61)中,径向设有两个密封部分(91和92),并且包含U形密封件(64和65)。 U形密封件(64和65)通过向气缸室(69和71)供应和排出空气而垂直地移动到密封槽(67和68)内,从而与凸缘(74)紧密接触或脱离。 在颗粒材料加工过程中,通过U形密封(64)保持密封部分(91)的气密性。 在处理容器洗涤过程中,通过U形密封(65)保持密封部分(92)的气密性,从而防止其暴露。 同时,U形密封件(64)升高,从而在颗粒处理期间获得密封部分(S1)的清洗。
    • 5. 发明申请
    • Seamless capsule manufacturing method, seamless capsule manufacturing device and seamless capsule
    • 无缝胶囊制造方法,无缝胶囊制造装置和无缝胶囊
    • US20070082045A1
    • 2007-04-12
    • US10578361
    • 2004-11-02
    • Kuniaki YamanakaKazuomi UnosawaNarimichi TakeiShouji KonnoMasayuki Ikeda
    • Kuniaki YamanakaKazuomi UnosawaNarimichi TakeiShouji KonnoMasayuki Ikeda
    • A61K9/48B01J13/04
    • B01J2/06A61J3/07A61K9/48B01J13/04
    • A seamless capsule manufacturing device comprises a multiple nozzle 7 for ejecting liquid drops into hardening liquid 10 and a flow passage tube 11 for containing hardening liquid 10. The flow passage tube 11 has a deformation section 28 that includes an inlet part 25 and a formation tube part 28b showing a cross sectional area smaller than the inlet part 25. The liquid drops ejected from the multiple nozzle 7 into the hardening liquid 10 are once made to become spherical liquid drops 26 in a sol state at the inlet part 25. The liquid drops 26b are introduced from the inlet part 25 into the deformation section 28 while they are still in a sol state. As hardening liquid 10 is introduced from the inlet part 25 into the formation tube part 28b, its flow rate is changed and the liquid drops 26 are deformed due to the change in the flow rate to produce nonspherical seamless capsules SC. With this arrangement, it is possible to provide a method and a device for manufacturing high quality nonspherical seamless capsules with an enhanced level of productivity without requiring cumbersome parameter defining operations and delicate control operations.
    • 无缝胶囊制造装置包括用于将液滴喷射到硬化液体10中的多个喷嘴7和用于容纳硬化液体10的流路管11。 流路管11具有变形部28,该变形部28具有比入口部25小的截面积的入口部25和形成管部28b。 从多个喷嘴7喷射到硬化液体10中的液滴一度在入口部25处成为溶胶状的球状液滴26。 液滴26b从入口部25进入变形部28,同时仍处于溶胶状态。 由于硬化液10从入口部25引入到形成管部28b中,所以其流量发生变化,液滴26由于流量的变化而变形,生成非球形的无缝胶囊SC。 利用这种布置,可以提供一种制造高品质非球面无缝胶囊的方法和装置,其具有提高的生产率,而不需要繁琐的参数定义操作和精细的控制操作。
    • 6. 发明申请
    • Powder and particle processing apparatus and baffle device
    • 粉末和颗粒处理装置和挡板装置
    • US20070127103A1
    • 2007-06-07
    • US11633024
    • 2006-12-04
    • Kazuomi UnosawaKuniaki YamanakaShigemi Isobe
    • Kazuomi UnosawaKuniaki YamanakaShigemi Isobe
    • G02B26/08
    • B01J2/006B01J2/12
    • A powder and particle processing apparatus comprising multifunctional baffle devices is capable of not only mixing and stirring powders and particles but also ventilating and cooling a processing container by itself. The boot-shaped baffle devices 22 are arranged in the granulation/coating apparatus 1 having a rotary drum 2. Each of the baffle devices 22 has a hollow baffle main body 24 provided with ventilating holes 32, a ventilating pipe 35 held in communication with the internal space 31 of the body 24, cooling tubes 34 arranged at the body 24 so as to allow a cooling medium 33 to flow through them and a cooling medium supply/discharge pipe 36 held in communication with the tubes 34. The baffle devices 22 are adapted to mix/stir the powders and particles in the drum 2, exhaust air from the body 24 by way of the holes 34 and the pipes 35 and cool the body 24 by means of the tubes 32 and the pipes 36. As a result, the baffle devices 22 can provide the three functions of mixing/stirring, ventilation and cooling.
    • 包括多功能挡板装置的粉末和颗粒处理装置不仅可以混合和搅拌粉末和颗粒,而且可以自己通风和冷却处理容器。 靴形挡板装置22布置在具有旋转滚筒2的造粒/涂布装置1中。每个挡板装置22具有设置有通气孔32的中空挡板主体24, 主体24的内部空间31,布置在主体24处的冷却管34,以便允许冷却介质33流过它们以及与管34保持连通的冷却介质供给/排出管36.挡板装置22 适于混合/搅拌滚筒2中的粉末和颗粒,通过孔34和管35排出来自主体24的空气,并借助于管32和管36冷却主体24.结果, 挡板装置22可以提供混合/搅拌,通风和冷却的三个功能。
    • 7. 发明授权
    • Particle measuring device for granule processing apparatus and particle
measuring method
    • 颗粒处理装置用粒子测定装置及粒子测定方法
    • US5992245A
    • 1999-11-30
    • US51903
    • 1998-04-15
    • Narimichi TakeiKuniaki YamanakaShigemi Isobe
    • Narimichi TakeiKuniaki YamanakaShigemi Isobe
    • G01N1/02G01N15/00G01N15/14G01N33/00G06M11/04G01N31/00
    • G01N1/02G01N15/147G01N15/1475G06M11/04G01N2001/2833G01N2015/0096G01N2033/0091
    • In a particle measurement device 1 for a powder or granular material processing apparatus, powder or granular material is introduced into a drawing tube 3, which is formed to be projected from the inside of the granulating vessel 2, by injecting high pressure gas from the inside of the granulating vessel 2, so as to capture it with adhesive film 6. The captured powder or granular material is photographed, and, based on the obtained image information, information on the powder or granular material within the granulating vessel 2 is obtained. An air inlet 4, which is communicated with the drawing tube 3, is provided in the drawing tube 3 in the neighborhood of its end portion 3b on the side of the outside of the granulating vessel 2. Through this air inlet 4, gas having higher pressure than the inside of the granulating vessel 2 is introduced into the drawing tube 3. By this, in the particle measurement device for the powder or granular processing apparatus, effects of remaining powder or granular material and flow out of the powder or granular material are removed, and grain size etc. are measured with high reliability.
    • PCT No.PCT / JP96 / 03074 Sec。 371日期:1998年4月15日 102(e)日期1998年4月15日PCT 1996年10月23日PCT公布。 出版物WO97 / 15816 PCT 日期1997年5月1日在用于粉末或颗粒材料处理装置的颗粒测量装置1中,粉末或颗粒材料被引入到从造粒容器2的内部突出形成的拉拔管3中, 从造粒容器2的内部排出的气体,以便用粘合膜6捕获。拍摄的粉末或颗粒材料被拍照,并且基于所获得的图像信息,关于造粒容器2内的粉末或颗粒材料的信息 获得。 与拉丝管3连通的进气口4在造粒容器2的外侧的端部3b附近的拉拔管3内设置。通过该空气入口4,具有较高的气体 压力比造粒容器2的内部被引入到抽拉管3.由此,在粉末或颗粒状处理装置的粒子测定装置中,残留的粉末或粒状物质的粉末或粒状物质的流出效果为 去除,粒度等测量,可靠性高。
    • 10. 发明申请
    • Coating apparatus
    • 涂装设备
    • US20080289571A1
    • 2008-11-27
    • US11907378
    • 2007-10-11
    • Shigemi IsobeKuniaki YamanakaTakashi TeradaYuriko Hirai
    • Shigemi IsobeKuniaki YamanakaTakashi TeradaYuriko Hirai
    • A23G3/26
    • B01J2/006B01J2/12
    • A hollow rotating drum 3 is rotatably arranged in an outside casing 7. On the outer circumference surface of the drum 3, along the circumferential direction thereof, there are formed ventilation sections 6 that can ventilate the inside and outside of the drum 3 in the coating processing. The ventilation sections 6 are arranged over the entire circumference of the outer circumference surface of the drum 3. In the ventilation sections 6, hollow pipes 16 through which cold air circulate are arranged with a predetermined clearance provided therebetween. Communication regions that make the inside of the drum 3 communicate with the outside thereof are formed by the clearance provided between the pipes 16. During the coating processing, arbitrarily, cold air is supplied to the pipes 16 to cool the drum 3, and the temperature difference is brought about between the inner surface of the drum 3 and products to be processed, which can prevent the coating base material from adhering to the inner surface of the drum 3.
    • 中空旋转鼓3可旋转地布置在外壳7中。在滚筒3的外圆周表面上沿着其圆周方向形成有通风部分6,其可以使涂层中的滚筒3的内部和外部通风 处理。 通风部6布置在滚筒3的外周表面的整个圆周上。在通风部分6中,冷空气循环的中空管16以设置在其间的预定间隙布置。 通过设置在管16之间的间隙形成使滚筒3的内部与外部连通的通信区域。在涂覆处理期间,任意地,向管16供应冷空气以冷却滚筒3,并且温度 在滚筒3的内表面和待处理产品之间产生差异,这可以防止涂层基材粘附到滚筒3的内表面。