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公开(公告)号:US11691895B2
公开(公告)日:2023-07-04
申请号:US16645448
申请日:2018-09-07
IPC分类号: C02F1/04 , B01D1/26 , B01D1/28 , C02F103/08 , F01C1/30 , F01C9/00 , F04C2/30 , F04C9/00 , F04C18/30 , F04C21/00
CPC分类号: C02F1/041 , B01D1/26 , B01D1/2881 , B01D1/2884 , B01D1/2887 , B01D1/2893 , C02F2103/08 , F01C1/30 , F01C9/002 , F04C2/30 , F04C9/002 , F04C18/30 , F04C21/002
摘要: Multi-chamber Compressor (6, 206, 506) of Mechanical Vapor re-Compression (MVC) and water treatment methods, the compressor bearing independent compression chambers of positive displacement, for heat-pumps, of two main variants: a) reciprocating-rotary motion (6, 206) wherein the compression chambers (7V) are radially arranged cylindrical sectors based on concentric circular sectors of the same angle, with, pistons of radially arranged vanes (20, 220) of respective surface and with the plane of the vanes passing through the axis of the common rotor (14) and the shaft (16) and b) reciprocating-linear motion (506) wherein the compression chambers (52v) are in series arranged cylinders with pistons/vanes (50v) of corresponding circular surfaces and with the plane of the vanes perpendicular to the common shaft (51). In both cases, the shaft (16, 51) and the motor are common to all the vanes (20v, 50v), which follow identical strokes. The surfaces of the vanes (20v, 50v), as well as of the compression chambers (7V, 52v), differ from each other, since each compression chamber (7V, 52v) has its own and independent pair of evaporation (ev, dv, Lv, by) and heat-exchanger chambers/areas (Cv/eCv, 32v/33v, 132v, 54v/53v), said compression chamber exclusively sucks from, compresses and discharges to, and the fluids/vapors being dispensed, are under different thermodynamic state conditions. The stages are independent from each other, the medium-vapor providing the energy of evaporation is produced in the stage itself, and flow rate and compression ratio CR are independently controlled and adjusted in each stage.
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公开(公告)号:US20100155503A1
公开(公告)日:2010-06-24
申请号:US12602128
申请日:2008-05-28
IPC分类号: B05B15/02
CPC分类号: A01G25/023
摘要: The emitter with potential of self cleaning of the water inlet filter, has incorporated filter in the inlet of water that consists of openings (2) with potential of bending of elements (1, Ia, 9) that create them if particular pressure is exercised from the one side of their surface. In case of complete blocking of the openings (2) of elements (1, Ia, 9) from foreign bodies that are transferred by water, a difference of pressure is developed between the two surfaces of these elements. This difference of pressure exercises forces and moments that bend or twist specific points of elements (1, Ia, 9) and as a consequence the continuity in the layer of foreign bodies that covers the filter is disturbed and interrupted. These forces are exercised constantly until the above mentioned difference of pressure is eliminated. In most systems, the deflection sag is controlled and limited by terminal limits (11).
摘要翻译: 具有进水过滤器自净能力的发射器在水入口处并入过滤器,该过滤器由具有弯曲元件(1,1a,9)的可能性的开口(2)组成,如果特定压力来自 他们表面的一面。 在由水传递的异物完全堵塞元件(1,Ia,9)的开口(2)的情况下,在这些元件的两个表面之间产生压力差。 压力的这种差异使弯曲或扭曲元件(1,Ia,9)的特定点的力和力矩,结果覆盖过滤器的异物层的连续性受到干扰和中断。 这些力是不断运行的,直到消除了上述的压力差。 在大多数系统中,偏转下垂受到终端限制的限制(11)。
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3.发明申请公开(公告)号:US20200339439A1
公开(公告)日:2020-10-29
申请号:US16645448
申请日:2018-09-07
摘要: Multi-chamber Compressor (6, 206, 506) of Mechanical Vapor re-Compression (MVC) and water treatment methods, the compressor bearing independent compression chambers of positive displacement, for heat-pumps, of two main variants: a) reciprocating-rotary motion (6, 206) wherein the compression chambers (7V) are radially arranged cylindrical sectors based on concentric circular sectors of the same angle, with, pistons of radially arranged vanes (20, 220) of respective surface and with the plane of the vanes passing through the axis of the common rotor (14) and the shaft (16) and b) reciprocating-linear motion (506) wherein the compression chambers (52v) are in series arranged cylinders with pistons/vanes (50v) of corresponding circular surfaces and with the plane of the vanes perpendicular to the common shaft (51). In both cases, the shaft (16, 51) and the motor are common to all the vanes (20v, 50v), which follow identical strokes. The surfaces of the vanes (20v, 50v), as well as of the compression chambers (7V, 52v), differ from each other, since each compression chamber (7V, 52v) has its own and independent pair of evaporation (ev, dv, Lv, by) and heat-exchanger chambers/areas (Cv/eCv, 32v/33v, 132v, 54v/53v), said compression chamber exclusively sucks from, compresses and discharges to, and the fluids/vapors being dispensed, are under different thermodynamic state conditions. The stages are independent from each other, the medium-vapor providing the energy of evaporation is produced in the stage itself, and flow rate and compression ratio CR are independently controlled and adjusted in each stage.
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公开(公告)号:US10433501B2
公开(公告)日:2019-10-08
申请号:US15487350
申请日:2017-04-13
IPC分类号: A01G25/02
摘要: A hybrid emitter of low discharge for water or solutions is inserted and welded into a pipe during the production phase. The hybrid emitter bears at its convex and cylindrical surface local protrusions that are covered completely from the pipe which is swelled locally. The water exits preferably from two nozzles that are created within the protrusions by the cutting-off of the tips, which protrusions protrude and after cutting-off, said nozzles eject the water almost cross-wise to two opposite directions and at short discrete distances left and right of the pipe. A method for welding of emitters and accessories into a pipe where the emitter or the hybrid one with or without protrusions on the outer surface, are inserted into the pipe during its production phase.
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5.发明申请公开(公告)号:US20170265402A1
公开(公告)日:2017-09-21
申请号:US15487350
申请日:2017-04-13
IPC分类号: A01G25/02
CPC分类号: A01G25/026 , A01G25/023
摘要: A hybrid emitter of low discharge for water or solutions is inserted and welded into a pipe during the production phase. The hybrid emitter bears at its convex and cylindrical surface local protrusions that are covered completely from the pipe which is swelled locally. The water exits preferably from two nozzles that are created within the protrusions by the cutting-off of the tips, which protrusions protrude and after cutting-off, said nozzles eject the water almost cross-wise to two opposite directions and at short discrete distances left and right of the pipe. A method for welding of emitters and accessories into a pipe where the emitter or the hybrid one with or without protrusions on the outer surface, are inserted into the pipe during its production phase.
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公开(公告)号:US10184455B2
公开(公告)日:2019-01-22
申请号:US14913147
申请日:2014-08-20
摘要: Horizontal axis W/T of low wind speeds of propeller type, bearing a main rotor of three blades (1), while in the space between two successive blades (1) and diametrically opposite to the third, an additional 4th blade (2) also of propeller type but of significantly longer length, is interposed. This additional blade (2) is not permanently coupled but selectively engaged in the system of the W/T at low wind speeds, contributing to the startup and enhancing the energy production. The blade (2) bears diametrically opposite a counterweight (15) to balance the forces developed, and rotates in a plane parallel to the main rotor. The coupling of the blade (2) is preferably made at the stand-by state or at low wind speed operation of the W/T, while the uncoupling will be performed during operating state and at the rated power. The blade (2) after uncoupling, gets in vertical position and remains immobilized attached to the tower.
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7.发明申请公开(公告)号:US20170332563A1
公开(公告)日:2017-11-23
申请号:US15524502
申请日:2015-11-04
CPC分类号: A01G25/023 , A01G2025/006
摘要: The cylindrical emitter (3) with water filter is welded into a pipe (2), the filter develops in the internal concave surface of the emitter and is comprised of a collection channel (4) developing preferably peripherally and to an arc of large magnitude incorporating considerable number of orthogonal openings (5) formed by the side walls (11) of shallow channels (12) that cross perpendicular the collection channel (4) extended to a considerable length front and rear of the openings (5). Every opening (5) cones ponds to a shallow channel (12), the shallow channels are parallel to the flow (14) of the water and are preferably raised over the internal concave surface of the emitter. The flow in the shallow channels (12) feeds continuously the collection channel (4) irrespectible if the surface of the openings (5) is covered or not by foreign particles (15). The openings (5) and the side walls of the filter are formed with the engraving of longitudinal, shallow and preferably radial channels on the cylindrical core of the mold that forms also the internal cylindrical surface of the emitter.
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公开(公告)号:US09433157B2
公开(公告)日:2016-09-06
申请号:US13823288
申请日:2011-09-20
CPC分类号: A01G25/02 , A01G25/023 , A01G25/026 , Y02A40/237 , Y10T83/04
摘要: The irrigation matter (1) of the present invention is inserted and welded in the interior of a drip irrigation pipe (2) during production thereof. It has a number of protrusions (8) arranged in a row emerging from a solid flat part/base (6) of the outer convex surface (7) of the emitter (1). The pipe (2) is locally swollen, covers and is welded both on the protrusions (8) and on their base (6), so that a unified welded assembly is formed between protrusions (8) and the pipe. The water outlets (10) are typically and preferably formed between the prismatic protrusions (8) by cutting off the tips of the protrusions (8) during passage of the drip irrigation pipe in a continuously rotating concave fraise (35) located at the end of the production line. Cutting takes place after the pipe has passed through a system of successive pairs of concave and convex rollers which squeeze it, stretch it and make it rigid, maintaining it in a flattened convex and bent form.
摘要翻译: 本发明的灌溉物(1)在其生产过程中插入并焊接在滴灌管(2)的内部。 它具有从发射器(1)的外凸面(7)的固体平坦部分/基部(6)排出的一排突出部(8)。 管(2)局部肿胀,覆盖并在两个突起(8)和它们的底座(6)上焊接,从而在突起(8)和管之间形成统一的焊接组件。 通常并优选地,在出口(10)中,通过在滴灌管通过位于位于末端的连续旋转的凹面(35)的通道期间切断突起(8)的尖端,通常并优选地形成在棱柱形突起(8)之间。 生产线。 在管道通过连续的一对凹凸辊的系统之后进行切割,挤压它,拉伸并使其刚性,使其保持扁平的凸形和弯曲形式。
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公开(公告)号:US20160208772A1
公开(公告)日:2016-07-21
申请号:US14913147
申请日:2014-08-20
CPC分类号: F03D15/20 , F03D1/025 , F03D1/0625 , F03D1/0666 , F03D7/02 , F03D7/0224 , F03D7/0244 , F03D9/25 , F03D13/10 , F03D15/00 , F05B2240/2021 , F05B2260/403 , F05B2260/404 , Y02E10/721 , Y02E10/723
摘要: Horizontal axis W/T of low wind speeds of propeller type, bearing a main rotor of three blades (1), while in the space between two successive blades (1) and diametrically opposite to the third, an additional 4th blade (2) also of propeller type but of significantly longer length, is interposed. This additional blade (2) is not permanently coupled but selectively engaged in the system of the W/T at low wind speeds, contributing to the startup and enhancing the energy production. The blade (2) bears diametrically opposite a counterweight (15) to balance the forces developed, and rotates in a plane parallel to the main rotor. The coupling of the blade (2) is preferably made at the stand-by state or at low wind speed operation of the W/T, while the uncoupling will be performed during operating state and at the rated power. The blade (2) after uncoupling, gets in vertical position and remains immobilized attached to the tower (3).
摘要翻译: 螺旋桨式低风速的水平轴W / T,承载三个叶片(1)的主转子,而在两个连续叶片(1)之间的空间中,与第三叶片(1)直径相对,另外还有第四叶片(2) 的螺旋桨型,但长度显着更长。 这种额外的叶片(2)不是永久地联接,而是以低风速选择性地接合在W / T的系统中,有助于启动并增强能量产生。 叶片(2)与配重(15)直径相对,以平衡所产生的力,并且在与主转子平行的平面中旋转。 叶片(2)的联接优选地在待机状态或W / T的低风速操作下进行,而在操作状态和额定功率期间将执行解耦。 解耦后的叶片(2)处于垂直位置并保持固定在塔(3)上。
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公开(公告)号:US20130181066A1
公开(公告)日:2013-07-18
申请号:US13823288
申请日:2011-09-20
IPC分类号: A01G25/02
CPC分类号: A01G25/02 , A01G25/023 , A01G25/026 , Y02A40/237 , Y10T83/04
摘要: The irrigation matter (1) of the present invention is inserted and welded in the interior of a drip irrigation pipe (2) during production thereof. It has a number of protrusions (8) arranged in a row emerging from a solid flat part/base (6) of the outer convex surface (7) of the emitter (1). The pipe (2) is locally swollen, covers and is welded both on the protrusions (8) and on their base (6), so that a unified welded assembly is formed between protrusions (8) and the pipe. The water outlets (10) are typically and preferably formed between the prismatic protrusions (8) by cutting off the tips of the protrusions (8) during passage of the drip irrigation pipe in a continuously rotating concave fraise (35) located at the end of the production line. Cutting takes place after the pipe has passed through a system of successive pairs of concave and convex rollers which squeeze it, stretch it and make it rigid, maintaining it in a flattened convex and bent form.
摘要翻译: 本发明的灌溉物(1)在其生产过程中插入并焊接在滴灌管(2)的内部。 它具有从发射器(1)的外凸面(7)的固体平坦部分/基部(6)排出的一排突出部(8)。 管(2)局部肿胀,覆盖并在两个突起(8)和它们的底座(6)上焊接,从而在突起(8)和管之间形成统一的焊接组件。 通常并优选地,在出口(10)中,通过在滴灌管通过位于位于末端的连续旋转的凹面(35)的通道期间切断突起(8)的尖端,通常并优选地形成在棱柱形突起(8)之间。 生产线。 在管道通过连续的一对凹凸辊的系统之后进行切割,挤压它,拉伸并使其刚性,使其保持扁平的凸形和弯曲形式。
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