| 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 | 一种气动管道传输的安全传输载体装置 | CN201710125673.3 | 2007-09-19 | CN106672630A | 2017-05-17 | 不公告发明人 |
| 本发明提供一种简单、可靠的气动管道传输的安全传输载体,在传输载体上设置将传输载体的盖体和桶体锁紧的锁紧机构;通过一锁紧检测机构判断该锁紧机构是否将盖体和桶体锁紧,只有当锁紧检测机构判断盖体和桶体处于锁紧状态时,才允许传输载体放行进入到气动管道中。 | ||||||
| 2 | 一种确保传输载体不开盖的方法 | CN201610182421.X | 2007-08-02 | CN105731070A | 2016-07-06 | 陆洪瑞 |
| 本发明涉及气动管道传输领域。本发明的确保传输载体不开盖的方法,其特征在于包括如下步骤:1)在传输载体上设置锁紧传输载体的盖体和桶体的锁紧机构;2)在传输载体上设置锁紧检测机构;3)用锁紧检测机构检测锁紧机构是否确实将传输载体的盖体和桶体锁紧,如果没有锁紧,则再次操作锁紧机构锁紧盖体和桶体,在确定已锁紧条件下,放行传输载体。本发明的方法,通过在传输载体上设置锁紧机构和锁紧检测机构,确保了进入传输管道的传输载体是处于锁紧状态的;而且在锁紧机构处于锁紧状态时,其被锁紧检测机构锁紧,实现互锁,确保了传输载体的盖体与桶体锁紧的安全可靠性,提高传输效率,并增加私密性。 | ||||||
| 3 | 远程交易系统的方法及装置 | CN201610320374.0 | 2006-12-18 | CN106023478A | 2016-10-12 | 陆洪瑞 |
| 远程交易系统的方法及装置。本发明涉及进行交易的领域,尤其涉及在顾客及服务提供之间固定场所的非面对面的跨空间的进行的交易。利用原有的视频、音频设备让交易的服务提供者与顾客进行互相通话,和相互观看;并建立了录制系统,还有在传输系统里,万一顾客由于疏忽忘记取走物品,服务提供者有保管的义务,但现在市场的有的系统没有对上述事件进行处理,本发明建立了处理办法,使服务提供者履行了这一义务;同时提供了手动键盘录入准备交易的内容,用电子数据进行交流;这样可根据优先服务大客户原则,先为大客户服务。 | ||||||
| 4 | 一种传输系统、传输方法及阀门 | CN201610084101.0 | 2010-01-18 | CN105775746A | 2016-07-20 | 陆洪瑞 |
| 一种传输系统、传输方法及阀门,本发明涉及气动管道传输领域,气动管道传输系统是现代化的快速物流传输工具。但现有技术中存在如下缺点:常用风机一旦故障就有可能将传输器滞留在传输管道内;从而造成交易中断的大故障;还有传输器在竖向管道下落时,接收端管道密封与传输器形成气密舱,使传输器下降速度极慢,影响了传输效率。本发明内容在工作站的两端设置气流控制阀门;发送时,发送端气阀打开;接收端气阀不能打开;向上的气流将传输器托起;气流将传输器运至接收端竖向传输管道传输器可以自由下落的地方;接收时,传输器首先沿管道无气阻的自由下落至气垫形成处即缓冲区,气垫处即缓冲区将传输器缓缓的接到接收端的出口处。 | ||||||
| 5 | 一种新型传输器及其传输器的方法 | CN201610182422.4 | 2007-08-02 | CN105712083A | 2016-06-29 | 陆洪瑞 |
| 本发明涉及气动管道传输领域。本发明的新型传输器,包括桶体和盖体,所述桶体或盖体上设有锁紧机构和用于检测锁紧机构是否锁紧的锁紧检测机构。本发明不仅确保了锁紧功能,而且能够互锁,提高了传输器的盖体与桶体锁紧连接的安全可靠性,利于提高传输效率,增加私密性。 | ||||||
| 6 | 一种现金直通车系统 | CN201610218347.2 | 2014-02-09 | CN106429448A | 2017-02-22 | 不公告发明人 |
| 本发明公开了一种现金直通车系统,包括设置在现金存放区的发送端或接收端、设置在现金存放区之外的提取端或存款端,连接在所述发送端与提取端之间的传输管道。本发明适用于通过管道传送或接收物品的场合。 | ||||||
| 7 | 一种双向协同驱动的物料气动输送系统 | CN201610058292.3 | 2016-01-28 | CN105600453A | 2016-05-25 | 任率; 朱青; 刘清海; 王芹 |
| 本发明公开了一种双向协同驱动的物料气动输送系统,包括驱动气源单元和用于传输待输送物的传输管道单元,驱动气源单元向传输管道单元内提供吹气或吸气的气源驱动方式驱动待输送物气动传输,传输管道单元的起始端和终点端处均设有一个驱动气源单元,两个所述驱动气源单元协同配合同时向传输管道单元内提供不同的气源驱动方式,以增强待输送物在传输段的传输速度和/或减缓待输送物在接收段的传输速度。本发明具有能灵活转换两端驱动方式、既能在管道传输段提供极强驱动力、又能在管道接收段缓冲接收冲击力的优点。 | ||||||
| 8 | 一种利用单活塞护套驱动的物料气动输送系统 | CN201610058182.7 | 2016-01-28 | CN105600452A | 2016-05-25 | 朱先德; 朱青; 任率; 刘清海; 王芹 |
| 本发明公开了一种利用单活塞护套驱动的物料气动输送系统,包括传输管道单元和驱动气源单元,传输管道单元内设有待输送物,驱动气源单元与传输管道单元连通以使传输管道单元内产生正/负气压,传输管道单元内还设有一个与传输管道相匹配的活塞护套,活塞护套的轴向端与待输送物接触,活塞护套在驱动气源单元的作用下于传输管道单元内运动用以驱动待输送物完成气动输送。本发明具有兼容性好、使用成本低、输送方便快捷、安全性高、能保证样品物理特性和精度的优点。 | ||||||
| 9 | 用于转送烟草加工业的棒形制品的设备和方法 | CN201310531271.5 | 2013-11-01 | CN103798954A | 2014-05-21 | M.豪尔; S.克卢韦 |
| 本发明涉及一种用于转送烟草加工业的棒形制品的设备,设备包括至少一个发送单元和至少一个接收单元,发送单元具有控制装置和至少一个用于沿输送方向T发送制品的发送模块,接收单元具有控制装置和至少一个用于接收沿输送方向T发送的制品的接收模块;设备还包括至少一个分别将发送模块与接收模块连接的管道,管道用于将棒形制品从发送单元转送到接收单元;设备还包括将发送单元与接收单元连接的通讯连接部、用于识别和指示每个管道内部的管堵塞的器件以及吹出单元,其特征在于,设置控制模块,构造并且配置控制模块以通过从每个具有管堵塞的管道中吹出制品来自动地消除管堵塞,并且使得发送单元自动地重新投入运行。本发明还涉及一种相应的方法。 | ||||||
| 10 | 安全系统 | CN03817312.3 | 2003-06-04 | CN1668519A | 2005-09-14 | 马尔科姆·J.·门戴; 戴维·R.·希金森 |
| 本发明涉及用于输送安全单证的装置。该装置是用适合于在空气管系统使用的运载装置构成的,空气管系统能够将运载装置从源点输送到目的地。该运载装置包括圆柱形外壳(10),外壳与管子合作以输送运载装置。外壳包括内腔(10A),并与盖罩(17)和基座(18)相连以封闭内腔。盖罩包括一个缝隙(17A),以便将单证插入到内腔中,通过开锁可拆下基座,以取出安全单证。本发明还要求输送安全单证的空气管系统的权利,该系统包括适合于控制众多控制站(21A,21B,...21G)的控制器,以便在装载站和目的站之间沿互连管子输送运载装置。 | ||||||
| 11 | Pneumatic conveyer system of sample | JP3549582 | 1982-03-06 | JPS58152713A | 1983-09-10 | SUGIMOTO TETSUTAROU |
| PURPOSE:To safely further surely perform pneumatic transportation of a hazardous material sample in a nuclear reactor or the like, by connecting a carrier air pipe and recirculation pipe between respective stations of enclosed type to form a closed pipe line. CONSTITUTION:For instance, to feed a pneumatic carrier (a) of a sample vessel gathered by an automatic gatherer 5 from a station B to A, a converter DVB is placed to a side B to once close a side A of DVA, and an exhaust valve VB1 is closed while a recirculation air valve VB3, air shut off valve VB2, the second suction valve Va2 and the first exhaust valve Vb1 are opened, and a selector valve ECV is placed under a suction condition to open a stop valve VO, if a blower P is operated, air from a suction filter 17 is discharged from an exhaust filter 14, and the carrier (a) is conveyed to a final end part via a carrier air pipe 6 by suction air of a recirculation pipe 9, if arrival of the carrier is detected by a detector PO, the carrier is again conveyed to a receiving station A by similar valve action. In this way, contaminated air disconnected from the outside air is never used to safely further surely enable the pneumatic transportation. | ||||||
| 12 | Object extracting device | JP23221495 | 1995-09-11 | JPH08113346A | 1996-05-07 | MISHIERU HERUBURUTOU; ROBEERU MARUSHIYAN |
| PROBLEM TO BE SOLVED: To restore a transfer network while preventing radiation pollution by discharging a radiation transfer container clogging in a transfer pipe to a scrapping device after sucking it into a metal-clad container. SOLUTION: In the case where a radiation sample transferring container 32 is clogging in a part 19, the part 19 in the failure position is removed from an upstream part 19 and connected to a flexible pipe 12. A bellows-shaped extensible joint 22 is arranged in the specified position, and a protective bag 33 is attached to the free end of the upstream part 19. Next, the transfer container 32 is sucked by the operation of a blower 5. This transfer container 32 is stopped on the bottom of a cavity 10 of a metal-clad container 8. Continuity of an air pressure transfer network 30 is restored. Radiation rays emitted from the transfer container 2 is absorbed by the metal-clad container 8. Next, the flexible pipe 12 is connected to a scrapping device. When the blower 5 is operated in the opposite direction, the transfer container 32 is discharged from the cavity 10 and housed in the scrapping device. | ||||||
| 13 | Automatic transport speed control device for pneumatic carrier | JP4070883 | 1983-03-14 | JPS59167411A | 1984-09-20 | OOHAMA MITSUMASA; INOUE YOSHIFUMI; ITOU NORIYOSHI |
| PURPOSE:To prevent a breakage of a pneumatic dispatched matter or a curved pneumatic tube by providing a pneumatic carrier with a variable compressed air pressure-type automatic transport speed control device for a pneumatic tube for carrying a pneumatic dispatched matter at a suitable speed corresponding to the condition of the pipeline. CONSTITUTION:Compressed air pressure of a compressed air tube 27 connected to pneumatic tubes 24, 25, 26 near the transport direction of an inside valve 2 of a transmitter 1 connected to the pneumatic tubes 24, 25, 26 is detected by a pressure detector 28, and the detected pressure is converted into an electric signal to be sent to a control device. The pressure of the compressed air tube 27 is controlled by a pressure regulating valve 29. A pneumatic dispatch matter is thrown into a transmitter 1, the control device judges that the pneumatic dispatch matter is enclosed in the pneumatic tube 24 from a pneumatic dispatch matter dispatch detector 3, an interrupting valve 10 is opened to the full in response to an electric signal, and the interrupting valve 10 is fully closed in response to a signal saying that the pneumatic dispatch matter reaches a receiver. The control device 15 is adapted to control the opening of the pressureregulating valve 29 corresponding to the transport speed of the pneumatic dispatch matter, so that the pneumatic dispatch matter is passed at the optimum transport speed corresponding to the condition of the pipeline of a bent portion of the pneumatic tube 25. | ||||||
| 14 | CURRENCY PROCESSING SYSTEM AND CURRENCY PROCESSING METHOD | EP11737031.2 | 2011-01-26 | EP2530660A1 | 2012-12-05 | DOI, Kazuhiro; HIGASHIYAMA, Minoru; TAGASHIRA, Kenichi; NAKAGAWA, Keiju |
A recognition machine 40, 90 connected to a pneumatic tube 14 is provided separately from a money change machine 20, 70. The recognition machine 40, 90 includes a recognition unit 46, 96 configured to recognize a paper sheet or a coin having been put thereinto, and a storing mechanism 48, 98 configured to store the paper sheet or the coin having been recognized by the recognition unit 46, 96, into a storing member for pneumatic tube 16 to be transported by a pneumatic tube 14. A control unit 60, 100 is configured to calculate a deposit amount of the paper sheet or the coin, by adding up information relating to the paper sheet or the coin stored in the money change machine 20, 70 and information relating to a paper-sheet recognition result or coin recognition result by the recognition unit 46, 96 of the recognition machine 40, 90. |
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| 15 | SECURITY SYSTEM | EP03724658.4 | 2003-06-04 | EP1513750A1 | 2005-03-16 | MENDAY, Malcolm, John; HIGGINS, David, Robert |
| The present invention relates to apparatus for transferring security documents. The apparatus is formed from a carrier adapted for use in an air tube system capable of transporting the carrier from a source to a destination. The carrier includes a substantially cylindrically shaped housing (10) which cooperates with the tube to allow the carrier to be transported. The housing includes an internal cavity (10A), and is coupled to a lid (17) and a base (18) to enclose the cavity. The lid includes an aperture (17A) to allow documents to be inserted into the cavity, with the base being removable via a lock to allow the security documents to be removed. The invention also claims an air tube system for transferring security documents, the system including a controller adapted to control a number of control stations (21A, 21B, …21G) for selectively transferring carriers along interconnecting tubes between loading stations and destination stations. | ||||||
| 16 | Money handling system and money handling method | US13575850 | 2011-01-26 | US08783436B2 | 2014-07-22 | Kazuhiro Doi; Minoru Higashiyama; Kenichi Tagashira; Keiju Nakagawa |
| A recognition machine 40, 90 connected to a pneumatic tube 14 is provided separately from a money change machine 20, 70. The recognition machine 40, 90 includes a recognition unit 46, 96 configured to recognize a paper sheet or a coin having been put thereinto, and a storing mechanism 48, 98 configured to store the paper sheet or the coin having been recognized by the recognition unit 46, 96, into a storing member for pneumatic tube 16 to be transported by a pneumatic tube 14. A control unit 60, 100 is configured to calculate a deposit amount of the paper sheet or the coin, by adding up information relating to the paper sheet or the coin stored in the money change machine 20, 70 and information relating to a paper-sheet recognition result or coin recognition result by the recognition unit 46, 96 of the recognition machine 40, 90. | ||||||
| 17 | PNEUMATIC TUBE CARRIER TRACKING SYSTEM | US14157950 | 2014-01-17 | US20140135978A1 | 2014-05-15 | Fredrick M. Valerino, SR. |
| A system and method provides for a pneumatic tube carrier tracking system having a system control module that captures and presents tracking information associated with sending and receiving carriers. The pneumatic tube carrier tracking system comprises sending and receiving stations connected by pneumatic tubing, and which are configured to securely send carriers, with receiving users optionally being restricted from unauthorized access of carriers. The sending and receiving stations have identifying tag readers configured to scan identifier tags to read carrier delivery, carrier receipt and receiving user information. Destination and intended recipient information are entered at the sending station when sending a carrier and are transmitted to a system control module, which routably delivers and secures the carriers in response the destination and intended recipient information. | ||||||
| 18 | VARIABLE SPEED DRIVE FOR PNEUMATIC TRANSPORT SYSTEM | US12138686 | 2008-06-13 | US20090311054A1 | 2009-12-17 | KENNETH MICHAEL HOGANSON; DANIEL R. GROSS |
| Provided herein are systems and methods for use in controlling a translocation process of a pneumatic tube system in order to reduce the amount of energy transferred from the tube system to a pneumatic carrier and, hence, its contents. Generally, these utilities entail identifying and/or reducing forces applied to a pneumatic carrier traveling through a travel path within a pneumatic tube system. The systems and method disposed herein allow for varying the velocity of a pneumatic carrier as it passes through a travel path of the pneumatic system. Such varying of the velocity allows for reducing the total forces applied to the pneumatic carrier during passage through the system. In one arrangement, the power output of a power source connected to a compressor device is altered to vary the velocity of pneumatic carries in the system. | ||||||
| 19 | Pneumatic transport air shifter | US10295222 | 2002-11-15 | US20040096279A1 | 2004-05-20 | Robert M. Farrell |
| A pneumatic transfer system having a modular pneumatic shifting device. A teller conduit has a teller station and a customer conduit has a customer station. A housing having apertures connected to the teller conduit and the customer conduit has a teller gate and a customer gate intermittently obstructing the apertures. A differential pressure generating mechanism is connected to the housing. A plurality of sensors send signals to a programmable means when a carrier pass through the system actuating movement of the gates and operation of the differential pressure generating mechanism. | ||||||
| 20 | Apparatus for the extraction of objects immobilized in a pneumatic transfer network | US521593 | 1995-08-30 | US5657508A | 1997-08-19 | Michel Herbreteau; Robert Marchand |
| Apparatus for the extraction of objects (32) immobilized in sections (19) of a pneumatic transfer network (30). The apparatus includes a flexible pipe (12), a metal-clad or radiation-impervious container (10) and a blower (5). A flange (16) makes it possible to connect the pipe (12) to the upstream end of the section (19). A suction system then makes it possible to draw the jammed jug (32) to the bottom of the metal-clad container (8) by moving it back into the section (19). Advantageously, the blower (5) is reversible for propelling the jug (32) in the opposite direction to a scrapping installation, to which is connected the flexible pipe (12). Therefore, both the manipulations and the contamination risks are reduced. | ||||||
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