子分类:
- F16L41/001: .{壁是一个管板(蒸汽加热器的零件或组成入F22G3/00;热交换器入F28)}
- F16L41/002: .{由混凝土,水泥或石棉-水泥制成的}
- F16L41/004: .{以非90度方向与壁连接的(F16L 41/002, F16L 41/008优先)}
- F16L41/005: .{可调整的并在开口处包含一个空心的螺纹件}
- F16L41/007: .{可调整的并包含一段弯管}
- F16L41/008: .{用于与测量表连接的(用于压力表的连接装置入G01L19/0007)}
- F16L41/02: .支管的部件,如做成1个焊接件或铆接件
- F16L41/04: .管壁攻螺纹,即当管子正在输送流体时通过管壁进行连接;其所用管件(有关金属加工步骤的设备或操作,见有关金属加工类)
- F16L41/08: .管子与壁或管子间的连接,管子轴线与壁面成垂直连接,或与另一管子轴线成垂直连接(F16L 41/02优先)
- F16L41/18: .支线管是可移动的
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Drehgelenk für eine pneumatische, mit einem Ausleger schwenkbewegliche Förderleitung | EP86103680.4 | 1986-03-18 | EP0196003B1 | 1988-09-28 | Heckel, Hans |
| 162 | Drehgelenk für eine pneumatische, mit einem Ausleger schwenkbewegliche Förderleitung | EP86103680.4 | 1986-03-18 | EP0196003A2 | 1986-10-01 | Heckel, Hans |
Herkömmliche Drehgelenke für pneumatische, mit einem Ausleger schwenkbewegliche Förderleitungen, etwa die Schwenkgelenke bei Saughebern, bedürfen genau bearbeiteter Gelenkteile und gemeinsamen Bohrens von Ausleger und Drehzylinder und sind kostenaufwendig; soweit man es bei einer Nur-Spaltdichtung beläßt, sind trotz hohem technischen Aufwand die Leckverluste erheblich und ist die Dichtheit gegen Regen, Schnee und Verschmutzung mangelhaft; die Anwendung elastischer Lippendichtungen löst das Problem auch nur ungenügend, weil bei den hier in Frage kommenden Durchmessern der erforderliche zentrische Rundlauf und die exakte Zylinderform des Drehzylinders praktisch nicht zu realisieren sind; hinzu kommt, daß diese Lippendichtungsprofile zwar im Saugbetrieb einigermaßen dichten, sich dagegen bei Wegfall des Unterdruckes (Betriebsstillstand) nicht mehr regendicht anschmiegen. Zur Verbesserung in punkto Vereinfachung, Verbilligung und Dichtheit wird die Anwendung eines die Förderleitung umschließenden, an seinen Dichtkanten vorgespannten elastischen Dichtungsblattes in Verbindung mit einem Lagerkörper, der auf streifenförmigen Aufnahmeflächen das Dichtungsblatt aufnimmt, sowie mit Spannmitteln zum Festsetzen des Dichtungsblattes auf diesen Aufnahmeflächen vorgeschlagen. |
||||||
| 163 | Conduit and off-take for drip irrigation systems | EP78300661.2 | 1978-11-23 | EP0002336A1 | 1979-06-13 | Menzel, Stanley William Otto |
A conduit for drip irrigation systems having a wall (5) of a pierceable material provided with a series of inwardly formed dimples along the length thereof and arranged to be pierced by a piercing member (13) on an offtake of sprinkler (10), the dimples having a selected wall thickness in relation to the wall of the conduit, the conduit being optionally provided with ribs at the dimples to give further securing means and optionally including a tension wire or member for support. |
||||||
| 164 | Flushing Bypass System | US16327061 | 2017-08-21 | US20190219275A1 | 2019-07-18 | Gordon CALLAWAY |
| A flushing bypass system, particularly for use in a district or communal heating system, has a primary circuit 2 capable of supplying heat to a secondary circuit 10, the secondary circuit normally supplying heating through radiators 11 and/or hot water from tank 14 for occupants. The primary circuit has a furcated strainer 3 upstream from at least one heat exchanger and a limb of the furcated strainer is connected to a heat exchanger bypass assembly. The bypass assembly comprises a valve 21, which may be a timer valve, a manual valve or a smart valve, having an input 20 connected to the furcated strainer and an output 24 connected back into the primary circuit downstream of the heat exchanger. When the valve 21 is closed fluid passes through the furcated strainer to the heat exchanger and when the valve is open, fluid bypasses the heat exchanger and flushes contaminants from the furcated strainer back to the primary circuit downstream of the heat exchanger. | ||||||
| 165 | DEVICE AND SYSTEM FOR OPENING UP BRANCH POINT OF PIPE ASSEMBLY | US15958089 | 2018-04-20 | US20180236506A1 | 2018-08-23 | Mika Lokkinen |
| The device is for opening up a branch point of a pipe assembly. The device has a tip part arranged to be rotated, in connection with which there is at least one blade, and spring-loaded discs and protrusions which are separate from the tip part and arranged to remain essentially non-rotating as the tip part is rotated. | ||||||
| 166 | Apparatus and method for puncturing a pipe | US15198702 | 2016-06-30 | US10053964B2 | 2018-08-21 | Lindsay Swearingen; Jason Swearingen |
| An apparatus and method for puncturing a pipe in-situ is presently disclosed. The apparatus has an actuator in communication with a remote controller. A firing assembly has a firing chamber and a firing pin, wherein the firing pin is in communication with the actuator. The firing chamber is configured to hold and fire a bullet radially toward the pipe, upon the firing pin being actuated with the actuator. The method includes the steps of inserting a pipe puncturing apparatus into a pipe, activating an actuator, communicating the activation of the actuator to a hammer and moving a firing pin in the hammer to impinge a cartridge and fire a bullet. | ||||||
| 167 | Pipe joint | US15218282 | 2016-07-25 | US10030799B2 | 2018-07-24 | Ming-Ching Huang |
| A pipe joint for coupling to at least one pipe is disclosed in the present invention. The pipe joint includes a main body and at least one positioning socket. The main body has a runner and at least one opening communicated with the runner. The runner has an insertion area adjacent to the opening. The positioning socket has a head, an inserting portion, a pipe channel, a radial threaded hole and a bolt. The inserting portion is inserted into the runner via the opening. The pipe channel runs through the head and the inserting portion in an axial direction of the positioning socket. The threaded hole is formed on the head and communicated with the pipe channel. The bolt is adapted to engage with the threaded hole for abutting against the outer surface of the pipe. | ||||||
| 168 | Hollow porous materials with architected fluid interfaces for reduced overall pressure loss | US15230241 | 2016-08-05 | US09862151B1 | 2018-01-09 | Kevin J. Maloney; Christopher S. Roper |
| A structure including a hollow porous material with an architected fluid interface to the hollow porous material and methods of forming the same. The architected fluid interface may be in the form of a manifold with tapered openings, each providing a gradually narrowing transition to the hollow channels within which fluid may flow through the hollow porous material. The material may be formed by forming an open-celled sacrificial scaffold, immersing one surface of the open-celled sacrificial scaffold in a bonding agent, attaching a face sheet to the surface to form a sacrificial scaffold assembly, coating the assembly with a coating material, and removing the sacrificial scaffold assembly. | ||||||
| 169 | APPARATUS AND METHOD FOR PUNCTURING A PIPE | US15198702 | 2016-06-30 | US20180003012A1 | 2018-01-04 | Lindsay Swearingen; Jason Swearingen |
| An apparatus and method for puncturing a pipe in-situ is presently disclosed. The apparatus has an actuator in communication with a remote controller. A firing assembly has a firing chamber and a firing pin, wherein the firing pin is in communication with the actuator. The firing chamber is configured to hold and fire a bullet radially toward the pipe, upon the firing pin being actuated with the actuator. The method includes the steps of inserting a pipe puncturing apparatus into a pipe, activating an actuator, communicating the activation of the actuator to a hammer and moving a firing pin in the hammer to impinge a cartridge and fire a bullet. | ||||||
| 170 | Systems and methods for coupling pipe with angled coupling mechanism | US13554337 | 2012-07-20 | US09739406B2 | 2017-08-22 | James Joseph Ficker; Bill Russell Vanhoose; Owen Michael Atchison; Nicholas James Piazza; Jeffrey Alan Warden |
| Embodiments of the present disclosure include a coupling mechanism. The coupling mechanism may include a connection section including a first opening, an inner flange, and an outer flange, wherein the connection section is configured to connect to a first pipe, a sleeve portion including a second opening and configured to connect to a second pipe, and a channel extending through the coupling mechanism between the first opening and the second opening, wherein the first opening is angled relative to the second opening, wherein the inner flange includes a first end and a second end, wherein the first end of the inner flange includes a width larger than a width of the second end of the inner flange. | ||||||
| 171 | Hollow polymer micro-truss structures containing pressurized fluids | US13618616 | 2012-09-14 | US09527261B1 | 2016-12-27 | Christopher S. Roper; William B. Carter; Alan J. Jacobsen; Kevin J. Maloney; Robert E. Doty; Tobias A. Schaedler; Adam E. Sorensen; Andrew P. Nowak |
| An ordered, 3-dimensional, micro-scale, open-cellular truss structure including interconnected hollow polymer tubes. The hollow micro-truss structure separates two fluid volumes which can be independently pressurized or depressurized to control flow, or materials properties, or both. Applications for this invention include deployable structures, inflatable structures, flow control, and vented padding. | ||||||
| 172 | Effluent flow splitter | US13709008 | 2012-12-09 | US09022066B2 | 2015-05-05 | Christ Spoorenberg; Raymond MacCullagh |
| The point of the invention is to evenly distribute water or effluent over an irrigation area or a drain field. Typically the fluid comes from a reservoir or a septic tank and is fed, by gravity, into a number of discharge pipes that would be located underground.The device related to this invention is characterized by a container with an inlet at the top and a number of outlets at the bottom. Inside the container the fluid is directed to the center of a flow splitter surface underneath, via a specifically configured spout. To make the fluid spread radian and uniformly towards the surface's perimeter this surface has hydrophilic properties and is convex shaped. The fluid eventually flows uniformly over the surface's edge and is evenly distributed over the outlets at the bottom. | ||||||
| 173 | MAGNETIC RETRIEVAL TOOL | US14521410 | 2014-10-22 | US20150044013A1 | 2015-02-12 | Allan John Perkins |
| A magnetic retrieval tool for retrieving devices, such as probes, from a pressurized system. The retrieval tool uses a magnetic coupling to transfer movement of an external mechanism (i.e. external to the pressurized system), such as by an operator's manual movement, a motor or other drive, to an internal mechanism (i.e. internal to the pressurized system). The magnetic coupling may be through a wall of a pressure vessel using an outer magnetic core coupled to the outside of the pressure vessel which magnetically couples to an inner magnetic core disposed on the inside of the pressure vessel, such that translational or rotational movement of the outer magnetic core cause substantially simultaneous and corresponding translational and/or rotational movement of the inner magnetic core. An end effector tool is coupled to the inner magnetic core to engage and retrieve or insert the device into the pressurized system. | ||||||
| 174 | Automated micro-volume assay system | US13778757 | 2013-02-27 | US08940232B2 | 2015-01-27 | David J. Roach; Tom W. Yang; Roger A. O'Neill; Robert T. Loder, Jr. |
| An automated assay system is described with stations for placement of materials to be used in an assay of materials inside capillaries and an automated gripper for manipulating capillaries. The system includes a separation and immobilization station where reactions inside the capillaries take place and a detector station where photoemissions from the capillary reactions are detected. The photoemissions from the capillaries may be displayed as line graphs or in columns of a pseudo-gel image resembling the familiar Western gel blot. An automated control system has a user interface by which an operator can select a run protocol and define the locations of samples and reagents to be used in the protocol run: Following the setup the control system will cause the automated system to execute the protocol, then display the results in a selected display format. | ||||||
| 175 | MULTI-PART CONCENTRIC MANIFOLD AND METHOD OF MAKING THE MANIFOLD | US13937509 | 2013-07-09 | US20150013777A1 | 2015-01-15 | Michael T. Landrum |
| A manifold is provided. The manifold includes a first body having an outer curved surface; a second body having an inner curved surface corresponding to the outer curved surface of the first body; and a groove formed in one or both of the outer and inner curved surfaces, wherein the first body is dimensioned to fit within the second body so that the outer curved surface contacts the inner curved surface and the groove forms a fluid passage located in between the first and second bodies, the fluid passage having an inlet and an outlet. A method for assembling a manifold may also be provided. | ||||||
| 176 | DEVICE FOR GENERATING FLUID PULSES | US13934539 | 2013-07-03 | US20140007959A1 | 2014-01-09 | Matthias Bauer; Jakob Lohse; Wolfgang Nitsche |
| A method for generating fluid pulses is provided. The device comprises a first channel with a first fluid inlet and a second channel with a second fluid inlet, in which the first fluid inlet and second fluid inlet are substantially situated opposite each other. The first channel comprises a first control outlet at the height of the first fluid inlet, and the second channel comprises a second control outlet at the height of the second fluid inlet, in which the respective control outlet is located in front of the respective fluid inlet in relation to the inflowing direction of the fluid inlet. | ||||||
| 177 | FUEL DISPENSING UNIT COMPRISING A LOCKING MEMBER FOR RETAINING A FUEL CONDUIT IN A LOCKED POSITION | US13811851 | 2010-07-09 | US20130284300A1 | 2013-10-31 | Bengt Ingemar Larsson; Mattias Goran Martensson |
| The invention relates to a fuel dispensing unit comprising a fuel conduit comprising an external annular bead, and a locking member comprising inwardly extending resilient tongues and the being arranged to retain the fuel conduit in a locked position and receive the fuel conduit in an open position, wherein the external annular bead of the fuel conduit is arranged to put the locking member in the open position when receiving. | ||||||
| 178 | METHOD AND SYSTEM FOR CONTROLLING A CUTTING TORCH | US13521481 | 2011-01-11 | US20130221585A1 | 2013-08-29 | Claude Bissonnette |
| A system for controlling a temperature of a flame of a torch for cutting a piece of material, comprising: a valve system fluidly connectable to an oxygen source and a fuel source for receiving a heating oxygen flow and a fuel flow, respectively, and the torch for propagating the heating oxygen and fuel flows thereto, the valve system comprising at least a first adjustable valve and a second adjustable valve for regulating the heating oxygen flow and the fuel flow, respectively; and a control unit comprising a memory and a processor configured for: receiving data indicative of a desired temperature for the flame; determining, from the data, a corresponding amount of heating oxygen and a corresponding amount of fuel adapted to provide the flame with the desired temperature; and adjusting the valves to provide the torch with the corresponding amount of heating oxygen and the corresponding amount of fuel. | ||||||
| 179 | ADJUSTABLE ATTACHMENT FOR DISPENSING APPARATUS | US13813840 | 2011-08-03 | US20130213507A1 | 2013-08-22 | Ognjen Vrdoljak |
| A selectively attachable attachment device for a steam appliance is capable of delivering a mixture of steam and a cleaning additive for cleaning surfaces. The attachment device includes a member that can be coupled to a steam source, and a housing configured to receive the member. The member and the housing include complementary tabs and detent(s) such that an adjustable spacing may be maintained between the steam nozzle and the additive nozzle. The adjustable spacing permits control of the rate at which cleaning additive is added to the steam. | ||||||
| 180 | Method and Apparatus for Installing a Device at a Storage Vessel | US13206287 | 2011-08-09 | US20130036588A1 | 2013-02-14 | Joram Agar; David Farchy |
| A method and apparatus for installing a device in a storage vessel having a drawline while the storage vessel is in operation is disclosed. A cutting tool is run through the drawline from a distal location to a location inside the storage vessel. The cutting tool is used to create an opening in the drawline at the location inside the storage vessel. The device is installed at the created opening. | ||||||
QQ群二维码
意见反馈
意见反馈