| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | Automatic interlock block diagram generating device | JP25920396 | 1996-09-30 | JPH10105218A | 1998-04-24 | KONDO YUTAKA |
| PROBLEM TO BE SOLVED: To automatically generate operation area determination logic with an easy input operation by dividing a graphic of an operable area, converting it into area determination logic and synthesizing determination logic of the operable area. SOLUTION: An operation area inputting means 7 inputs line segments that are drawn through an input device 3 along a rectangular diagram on an input screen of a display device 1 and makes the extent that are surrounded with these line segments an operation area. An operation area partitioning means 9 partitions the operation area into rectangular unit areas which are suitable to convert data into area determination logic of whether it exists within the area or not. A control logic converting means 11 converts a partitioned rectangle into logic that follows description regulations of an interlock block diagram, constructs logical OR in each diagram and generates operation area determination logic that is installed in a controller. An outputting means 13 prints an interlock block diagram on which generated operation area determination logic is described from a printer 5. COPYRIGHT: (C)1998,JPO | ||||||
| 122 | Device and method for displaying block diagram | JP13354396 | 1996-05-28 | JPH09319552A | 1997-12-12 | OZAKI MASANORI; TANUMA MASAYA |
| PROBLEM TO BE SOLVED: To display the link of terminals spread over respective pages while connecting these terminals through a signal line by reducing the respective pages, displaying an entire block diagram on the same display screen and freely scrolling the respective parts while displaying all the respective parts on a virtual screen and displaying one parts of them on the display screen. SOLUTION: A user prepares the block diagram through a mouse 13 and a keyboard 14 while using a block diagram preparing part 15. Block diagram data consisting of this diagram are stored in a storage part 17. The block diagram data read out of this block diagram data storage part 17 are displayed on a display device 12 by a block diagram display part 16. Then, pages A and B are displayed on the same display screen 61 of this display device 12 so as to be watched at the same time, for example, and further, the exchange of signals between the pages A and B is displayed by a signal line for connection so that the exchange conditions of signals can be discriminated at a glance. | ||||||
| 123 | Analyzing system for block diagram | JP4143693 | 1993-03-02 | JPH06259403A | 1994-09-16 | TSUBOI NAOKO; TANUMA MASAYA; OZAKI MASANORI |
| PURPOSE:To generate the block diagram which can be expanded to an expression, at the time of generating a hierarchical block diagram constituted of a one-page block diagram of the lower page for designating details of each page element by constituting a part of an analytic model consisting of plural pieces of arithmetic elements and a connecting line for connecting them, of the page element for showing it by one element. CONSTITUTION:In the analyzing system for a block diagram, having a block diagram input function A for generating an analytic model as a hierarchical block diagram consisting of plural pieces of arithmetic elements inputting it, and an attribute setting function B for inputting an attribute of each element and a calculating condition required for a calculation of the block diagram, and for converting those inputted data to a format of an analytic software and analyzing it by the analytic software, the block diagram input function A is allowed to have a function for constituting a model of one block diagram, constituting a part thereof a page element shown by one element, constituting details of each page element of a one-page block diagram of a designated lower part page, and also, inhibiting a double connection and recursive coupling between each page element. | ||||||
| 124 | KOMBINIERTE BLOCK- UND INDIVIDUALANTRIEBSVORRICHTUNG, INSBESONDERE FÜR PIPETTIERKANÄLE | EP13766488.4 | 2013-09-13 | EP2895869A1 | 2015-07-22 | NAWROCKI, Eduard |
| The present invention relates to a combined block- and individual-drive device, which is configured to move a plurality of moving objects (14a-14h) both jointly as a block along a movement path (B) and also with a predefined relative movement pattern in relation to one another along the movement path (B). The invention is characterized in that, on at least some of the moving objects (14a-14h), at least one spindle nut (58b-58h) of the moving object (14b-14h) is accommodated in a rotatable manner relative thereto about a drive spindle longitudinal axis (ASL), and in that a relative movement transmission mechanism (40) has a drive shaft (44) having a drive shaft longitudinal axis (AWL) parallel to the drive spindle longitudinal axis (ASL) and, on each moving object having a spindle nut (58b-58h) that is rotatable relative thereto about the drive spindle longitudinal axis (ASL), a slide block (60b-60h) which is movable, together with the moving object (14b-14h), relative to the drive shaft (44) along the drive shaft longitudinal axis (ASL) and is rotatable together with the drive shaft (44), wherein the spindle nut (58b-58h) is drivable for rotation about the drive spindle longitudinal axis (ASL) by rotation of the drive shaft (44) about the drive shaft longitudinal axis (AWL) with movement being transmitted by the slide block (60b-60h), and, when the drive spindle (40) is rotated in the circumferential direction about the drive spindle longitudinal axis (ASL), is supported on the drive shaft (44) by the slide block (60b-60h). | ||||||
| 125 | VERFAHREN UND ANORDNUNG ZUR BESTIMMUNG EINES RAUCHBEGRENZUNGSKENNFELDES EINES VERBRENNUNGSMOTORS | EP11776795.4 | 2011-10-31 | EP2649427A1 | 2013-10-16 | VÖGL, Rainer; VOGELS, Marie-Sophie; DAUM, Steffen; ERHART, Josef |
| The creation of a smoke limiting characteristic diagram is a complex process which requires highly qualified and highly experienced technical knowledge. In order to reduce the complexity for creation, according to the invention a number of load jumps are carried out for a number of speeds and the opacity O is measured and compared to an opacity limit O limit, wherein each speed n is begun at a predefined minimal combustion air ratio λ min and each load jump is repeated while increasing the last combustion air ratio λ by one combustion air ratio increment λ inc until the measured opacity lies below a predefined opacity limit O limit. | ||||||
| 126 | PARTITIONING BLOCK DIAGRAMS INTO EXECUTABLE CONTEXTUAL MODELS | PCT/US2011/000965 | 2011-05-27 | WO2011149553A1 | 2011-12-01 | ALDRICH, William, James; MESTCHIAN, Ebrahim, Mehran; ALPARSLAN, Denizhan, N. |
A system and method generates contextual information for a source model. An identification of one or more first model elements of interest within the source model may be received. One or more constraints on inputs of selected model elements also ma be received. A scope of analysis regarding outputs of the first model elements may be specified. The contextual information may be derived automatically for the one or more first model elements. The contextual information may include one or more model elements, signals, or states that are contained with the scope of analysis while execution of the source model is limited by the one or more constraints. The derived contextual information may be provided to an output device. |
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| 127 | Handling parameters in block diagram modeling | US12770064 | 2010-04-29 | US08793601B1 | 2014-07-29 | John Edward Ciolfi |
| A mechanism for processing graphical block diagram parameter expressions is presented. The mechanism achieves optimal implementation of block equations in the execution (run-time) environment by defining a mapping between user-defined block parameters and a run-time version of the parameters. The parameter processing mechanism also pools like, non-interfaced parameter expressions, allowing reuse of both uniform and non-uniform data across constant block parameters in the generated code and during model execution. The parameter processing mechanism further maintains an execution structure that maps the run-time parameter expressions containing interfaced variables to generated code for the block diagram so that the interfaced variables appear in the generated code. This mapping thus allows for interfacing to the interfaced variables in the generated code from any execution framework. | ||||||
| 128 | Handling parameters in block diagram modeling | US09911663 | 2001-07-24 | US08196056B2 | 2012-06-05 | John Edward Ciolfi |
| A mechanism for processing graphical block diagram parameter expressions is presented. The mechanism achieves optimal implementation of block equations in the execution (run-time) environment by defining a mapping between user-defined block parameters and a run-time version of the parameters. The parameter processing mechanism also pools like, non-interfaced parameter expressions, allowing reuse of both uniform and non-uniform data across constant block parameters in the generated code and during model execution. The parameter processing mechanism further maintains an execution structure that maps the run-time parameter expressions containing interfaced variables to generated code for the block diagram so that the interfaced variables appear in the generated code. This mapping thus allows for interfacing to the interfaced variables in the generated code from any execution framework. | ||||||
| 129 | Frames in block diagram modeling | US10414441 | 2003-04-15 | US07424684B2 | 2008-09-09 | Donald Paul Orofino, II; Ramamurthy Mani; Darel Allen Linebarger |
| Methods and apparatus, including computer program products, for block diagram modeling, including generating a block diagram containing blocks interconnected by lines on a graphical user interface (GUI), specifying frame and channel information, the frame and channel information including a frame length, a number of channels, a frame category and an inter-sample spacing, and propagating the frame and channel information available at each of subsequent blocks in the block diagram. | ||||||
| 130 | Method of making a mat to frame a picture | US120062 | 1993-09-13 | US5397416A | 1995-03-14 | Alan C. Howarth; Lanette Badel |
| Depth matting in the form of rigid thermoplastic foam bevel board is cut with a device to form a forty-five degree angled surface on one end facing away from a front surface of the bevel board which has a lengthwise edge forty-five degree angle bevel face used to provide depth between standard mats and the framed picture. A cutting device is provided holding the bevel board on its edge against a vertical wall with a vertical slot through which a knife edge is forced downwardly through the slot and the bevel board. The beveled surface on the end of the cut bevel board panel is abutted against the lengthwise edge beveled surface of the adjoining bevel board panel at each corner of the standard mat and attached to the rear surface of that mat. | ||||||
| 131 | Method of framing a picture and product thereof | US3701209D | 1971-05-10 | US3701209A | 1972-10-31 | KOBUSCH EARL W |
| A photographic film pack container assembly is converted into a frame for photographs and the like by inserting the picture in the framing opening, maintaining the picture in position by the pack retainer, and securing the back cover to the assembly only at one end thereof and at an angle to the balance of the assembly, thereby providing leaning support for vertical pictures. In the alternative, pressure tines in the back cover are bent rearwardly, providing leaning support for horizontal pictures.
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| 132 | Convertible display box picture frame | US3545111D | 1969-03-27 | US3545111A | 1970-12-08 | SPIEGEL HERBERT; ZELCER ISAAC |
| 133 | Frames in block diagram modeling | US10414441 | 2003-04-15 | US20040208193A1 | 2004-10-21 | Donald Paul Orofino II; Ramamurthy Mani; Darel Allen Linebarger |
| Methods and apparatus, including computer program products, for block diagram modeling, including generating a block diagram containing blocks interconnected by lines on a graphical user interface (GUI), specifying frame and channel information, the frame and channel information including a frame length, a number of channels, a frame category and an inter-sample spacing, and propagating the frame and channel information available at each of subsequent blocks in the block diagram. | ||||||
| 134 | Handling parameters in block diagram modeling | US09911663 | 2001-07-24 | US20030107595A1 | 2003-06-12 | John Edward Ciolfi |
| A mechanism for processing graphical block diagram parameter expressions is presented. The mechanism achieves optimal implementation of block equations in the execution (run-time) environment by defining a mapping between user-defined block parameters and a run-time version of the parameters. The parameter processing mechanism also pools like, non-interfaced parameter expressions, allowing reuse of both uniform and non-uniform data across constant block parameters in the generated code and during model execution. The parameter processing mechanism further maintains an execution structure that maps the run-time parameter expressions containing interfaced variables to generated code for the block diagram so that the interfaced variables appear in the generated code. This mapping thus allows for interfacing to the interfaced variables in the generated code from any execution framework. | ||||||
| 135 | 구조 모델링을 위한 SES 기반 블록 다이어그램 편집기 및 그 편집 방법 | KR1020120142199 | 2012-12-07 | KR101396885B1 | 2014-05-19 | 한승진; 신석훈; 정찬호; 이은복; 박강문; 지승도; 유용준 |
| The present invention relates to a system entity structure (SES) based block diagram editor to model a structure which supplies a structural modeling function for a high level in a layer structure; an alternative structure kind; a multiple structure, properties, and a connection relation through a block diagram; and an editing method for the same. The SES-based block diagram editor converts an SES of a random tree shape whereby the relation between a predetermined entity and the entities is defined into a block diagram shape. The SES-based block diagram editor according to the present invention includes: a storage unit storing a plurality of models converted into the block diagram by corresponding to the SES; a control unit generating the block diagram entity corresponding to a model when there is a predetermined model corresponding to the SES among the models stored in the storage unit; and generating the model corresponding to the SES by additionally generating a lower entity of the structure related to the generated entity. | ||||||
| 136 | VERFAHREN UND ANORDNUNG ZUR BESTIMMUNG EINES RAUCHBEGRENZUNGSKENNFELDES EINES VERBRENNUNGSMOTORS | EP11776795.4 | 2011-10-31 | EP2649427B1 | 2016-07-27 | VÖGL, Rainer; VOGELS, Marie-Sophie; DAUM, Steffen; ERHART, Josef |
| 137 | An apparatus and method for generating efficiently executable code representative of a block diagram | EP91116096.8 | 1991-09-21 | EP0513433A3 | 1993-04-21 | Powell, Douglas B. |
Each block of a block diagram corresponds to a software procedure for performing at least one function and the block comprises at least one input and at least one output. The blocks have interconnections between the inputs and outputs for forming the block diagram. The executable code is assembled by ordering the procedures in accordance with penalties associated with each procedure, so that the procedures having the smallest penalties are executed prior to the procedures having larger penalties. |
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| 138 | 电脑机箱(框图-39) | CN201230418826.1 | 2012-09-03 | CN302190241S | 2012-11-21 | 罗润升 |
| 1.该外观设计的产品名称:电脑机箱(框图-39)。2.该外观设计产品的用途:用于保护计算机主机内部组件。3.外观设计的设计要点:该产品的设计要点在于产品的外部造型。4.立体图最能表明设计要点的图片或者照片。 | ||||||
| 139 | A SYSTEM AND METHOD FOR USING EXECUTION CONTEXTS IN BLOCK DIAGRAM MODELING | EP04750234.9 | 2004-04-16 | EP1618471B1 | 2017-06-07 | CIOLFI, John; MANI, Ramamurthy; OROFINO, Donald, P., II; SHAKERI, Mojdeh; ULLMAN, Marc; YEDDANAPUDI, Murali |
| 140 | KOMBINIERTE BLOCK- UND INDIVIDUALANTRIEBSVORRICHTUNG, INSBESONDERE FÜR PIPETTIERKANÄLE | EP13766488.4 | 2013-09-13 | EP2895869B1 | 2016-11-30 | NAWROCKI, Eduard |
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