WO2012083848A1 - 一种节水止逆阀 - Google Patents
一种节水止逆阀 Download PDFInfo
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- WO2012083848A1 WO2012083848A1 PCT/CN2011/084341 CN2011084341W WO2012083848A1 WO 2012083848 A1 WO2012083848 A1 WO 2012083848A1 CN 2011084341 W CN2011084341 W CN 2011084341W WO 2012083848 A1 WO2012083848 A1 WO 2012083848A1
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- water
- saving
- section
- check valve
- sealing ring
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16K—VALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
- F16K15/00—Check valves
- F16K15/02—Check valves with guided rigid valve members
- F16K15/06—Check valves with guided rigid valve members with guided stems
- F16K15/063—Check valves with guided rigid valve members with guided stems the valve being loaded by a spring
Definitions
- the invention relates to a water saving check valve.
- the Chinese patent database was announced on March 10, 2010.
- the utility model "flow regulation check valve", its patent number is CN200920137849.8.
- the utility model comprises a sleeve, a current limiting device and a one-way valve, the one-way valve is sealingly disposed at the water outlet end of the sleeve, and the current limiting device is disposed at the water inlet end of the sleeve; wherein the current limiting device comprises a
- the water-saving sheet bracket and the water-saving sheet placed in the water-saving sheet bracket are flexible materials, and the deformation of the water-pressure sheet is blocked by the deformation of the water pressure. It has the following disadvantages: Because the one-way valve and the current limiting device are separated independently, two brackets and two sealing rings are required, which not only waste materials, but also increase the space occupied by the check valve.
- the US Patent Database was published on January 4, 2005.
- the invention "CARTRIDGE INSERT FOR A FLUID" LINE, the patent number is US6837267. It differs from CN200920137849.8 in that the current limiting device and the one-way valve share a bracket. Since the valve core needs to be sleeved with two sealing rings, one of the sealing rings serves as a one-way valve for sealing, and the other sealing ring serves as a current limiting device for adjusting functions. Therefore, there are the following disadvantages: 1.
- the axial length of the valve core Long increase the use of materials, increase manufacturing costs, increase the occupied space; 2, set two sealing rings, increase the use of materials, increase manufacturing costs; 3, the valve core is equipped with two fitting grooves to fit the sealing ring, reduce the spool Strength, increase the complexity of the valve core structure, and increase manufacturing costs.
- the present invention provides a water-saving check valve that overcomes the deficiencies of the check valve of the prior art.
- a water-saving check valve which includes:
- valve body (100) having a water passage (110) therein, the inner surface of the valve body (100) including at least a sealing section (111) and a water saving section (112) arranged in a forward direction according to the water flow of the waterway (110);
- valve core (200) movably mounted in the water passage (110), and the valve core (200) is provided with a sealing ring (210);
- a spring (300) that abuts against the spool (200) and subjects the spool (200) to an elastic force directed toward the sealing section (111) by the water-saving section (112);
- the spool (200) moves in the direction of the water pressure so that the seal ring (210) is located in the water-saving section (112), and the seal ring (210) is subjected to the water pressure radial direction.
- the sealing ring (210) is located in the sealing section (111), and the sealing ring (210) seals the inner surface of the sealing section (111).
- the sealing section (111) is provided as a tapered section.
- the inner surface of the water-saving section (112) is provided with a plurality of annular display protrusions (113), and the outer circumference of the normal sealing ring (210) is smaller than the plurality of protrusions (113).
- the end face constitutes a diameter, and the outer peripheral diameter of the normal seal ring (210) is between the largest diameter and the smallest diameter of the seal segment (111).
- a valve seat (400) comprising a set of bodies (410), a center seat (420) in the sleeve body (410), a plurality of fixing sleeves (410) and spokes (430) of the center seat (420)
- the sleeve body (410) is fixed to the valve body (100), and the spring (300) abuts between the center seat (420) and the valve core (200).
- the central seat (420) is provided with a sliding hole (421), a guiding rod (220) is protruded downwardly from the valve core (200), and the guiding rod (220) is fitted into the sliding hole (421). .
- the end of the central seat (420) is recessed with a lower annular groove (422), the bottom surface of the valve core (200) is recessed with an annular groove (230), and the spring (300) is sleeved with a guide rod. (220) and the upper and lower ends are respectively disposed in the upper annular groove (230) and the lower annular groove (422).
- the inner surface of the valve body (100) further includes at least a fastening portion (114), and the outer circumferential surface of the sleeve body (410) is fixed to the inner surface of the fastening portion (114).
- the outer surface of the valve core (200) is recessed with an annular groove (240), the sealing ring (210) is disposed in the annular groove (240), and the normal sealing ring (210) At least some of them can be directly affected by the forward water flow pressure of the waterway (110).
- the annular groove (240) has an upper annular surface (241), a lower annular surface (242) and a cylindrical surface (243).
- the outer annular surface (241) has an outer diameter smaller than the lower annular surface. (242) outer diameter; the outer circumferential diameter of the normal sealing ring (210) is larger than the outer diameter of the upper annular surface (241) and smaller than the outer diameter of the lower annular surface (242).
- a protruding post (250) protrudes from a central portion of the upper end surface of the valve core (200), and an upper outer rotating surface of the protruding post (250) annularly protrudes from a convex portion (260).
- the upper end surface is also formed with a lower annular surface 251 surrounding the stud (250), and the annular groove (240) is formed between the lower annular surface (251) and the concavity (260).
- a gap is provided between the adjacent two card protrusions (260).
- the anti-reverse function and the water-saving function share the bracket and the sealing ring. Only one bracket and one sealing ring can reduce the material consumption, reduce the manufacturing cost, shorten the axial length of the valve core, reduce the occupied space, and simplify the valve core. structure;
- the sealing section is set as a tapered section to ensure the sealing strength
- the convex strip is matched with the sealing ring to realize the water saving function, and the deformation of the sealing ring can be effectively regulated, and the water saving effect is good.
- FIG. 1 is a perspective view of a check valve of a preferred embodiment.
- FIG 2 is a second perspective view of the check valve of a preferred embodiment.
- FIG 3 is a perspective exploded view of a check valve of a preferred embodiment.
- FIG. 4 is a perspective exploded view of the check valve of a preferred embodiment.
- FIG. 5 is a top plan view of a check valve of a preferred embodiment.
- FIG. 6 is a schematic cross-sectional view taken along line A-A of FIG. 5, in which the water pressure of the forward water flow or the forward water flow of the water passage is less than the elastic force.
- Figure 7 is a cross-sectional view taken along line A-A of Figure 5, in which the water pressure of the forward water flow of the waterway is greater than the elastic force.
- FIG. 8 is a third schematic cross-sectional view taken along line A-A of FIG. 5, in which case the waterway reverses the flow of water.
- FIG. 9 is a cross-sectional view taken along line B-B of FIG. 6.
- Figure 10 illustrates one of the stereoscopic purposes of a valve body in accordance with a preferred embodiment.
- Figure 11 is a perspective view of the valve body of a preferred embodiment.
- Figure 12 is a perspective view of a spool of a preferred embodiment.
- Figure 13 is a perspective view of a valve core of another preferred embodiment.
- a water-saving check valve includes a valve body 100, a valve body 200, a spring 300, and a valve seat 400.
- the valve body 100 has a water passage 110 penetrating through the top and bottom, and a peripheral annular fitting groove 120.
- the fitting groove 120 is sleeved with the sealing ring 130.
- the inner surface of the valve body 100 includes at least a sealing section 111, a water-saving section 112 and a fastening section 114 which are arranged in the forward direction of the water flow of the waterway 110.
- the sealing section 111 is formed as a tapered section, and the tapered section is continuously increased in diameter according to the forward flow direction of the water flow, but is not limited thereto, and the sealing section 111 may also be used as needed.
- Set as a stepped hole (the sealing surface is abutted against the stepped surface of the stepped hole to achieve sealing).
- a plurality of annularly protruding protrusions 113 are disposed on the inner surface of the water-saving section 112. Moreover, in the embodiment, the diameter of the end surface of the protrusion strip 113 is slightly larger than the maximum diameter of the tapered section, but Not limited to this, it can also be equal to the maximum diameter of the cone section.
- the inner surface of the fastening section 114 is threaded.
- the valve seat 400 includes a sleeve 410, a center seat 420 located in the sleeve 410, a plurality of fixing sleeves 410, and spokes 430 of the center seat 420.
- the sleeve 410 is externally buckled, and the sleeve 410 snaps the fastening section 114 of the valve body 100 to fix the valve seat 400 and the valve body 100.
- the spool 200 is slidably mounted in the water passage 110.
- An annular groove 240 is defined in the outer surface of the valve body 200.
- the annular groove 240 has an upper annular surface 241, a lower annular surface 242 and a cylindrical surface 243.
- the outer diameter of the upper annular surface 241 is smaller than the outer diameter of the lower annular surface 242.
- the outer surface of the valve body 200 is sleeved with a sealing ring 210 made of a flexible material, and the outer circumferential diameter of the normal sealing ring 210 is larger than the outer diameter of the upper annular surface 241, so that the sealing ring 210 is at least partially positive.
- the water flow water pressure directly acts, and the outer circumference diameter of the normal sealing ring 210 is smaller than the outer diameter of the lower annular surface 242, so that the sealing ring 210 is supported on the lower annular surface 242 to increase deformation.
- the maximum outer diameter of the portion of the valve core 200 above the sealing ring 210 is smaller than the outer peripheral diameter of the normal sealing ring 210; the outer peripheral diameter of the normal sealing ring 210 is smaller than the end surface of the plurality of protruding blocks 113. Diameter; the outer circumference diameter of the normal seal 210 is between the largest diameter and the smallest diameter of the seal segment 111.
- the spring 300 which abuts between the center seat 420 and the spool 200, causes the spool 200 to be subjected to an elastic force directed toward the seal section 111 by the water-saving section 112.
- the central seat 420 is provided with a through sliding hole 421, and a guiding rod 220 is protruded from the valve core 200, and the guiding rod 220 is fitted into the sliding hole 421.
- the end of the central seat 420 is recessed with a lower annular groove 422.
- the bottom surface of the valve core 200 is recessed with an annular groove 230.
- the spring 300 is sleeved with the guide rod 220 and the upper and lower ends are respectively disposed on the upper end.
- the annular groove 230 and the lower annular groove 422 are inside.
- the valve core 200 moves in the direction of the water pressure so that the seal ring 210 is located in the water-saving section 112; since the outer diameter of the upper annular surface 241 is smaller than the outer diameter of the seal ring 210, the seal ring 210 can be Under the support of the water pressure, under the support of the lower annular surface 242, the sealing ring 210 is radially expanded and deformed, and is inserted into the space between the adjacent two protruding strips 113 to reduce the outer circumference of the sealing ring 210 and the inner hole of the water-saving section 112.
- the cross-sectional area between the faces wherein: the greater the pressure, the greater the deformation, the larger the outer expansion, and the smaller the cross-sectional area;
- the sealing ring 210 is located in the sealing section 111, and the sealing ring 210 seals the inner surface of the sealing section 111 in a non-reversing state.
- a protrusion 250 is protruded from a middle portion of the upper end surface of the valve body 200, and the upper portion of the protrusion 250 is rotated outward.
- the surface annular display protrudes from the convex portion 260.
- the upper end surface is further formed with a lower annular surface 251 surrounding the protruding post 250.
- the lower annular surface 251 and the locking portion 260 are formed as an annular groove 240 for fitting the sealing ring 210.
- the invention relates to a water-saving check valve, which has a non-reverse function and a water-saving function sharing bracket and a sealing ring, can reduce materials, reduce manufacturing cost, can shorten the axial length of the valve core, reduce the occupied space, and can simplify the valve core structure. .
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- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
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Description
本发明涉及一种节水止逆阀。
现有节水止逆阀,如:
中国专利数据库在2010年3月10日公告的实用新型《流量调节止逆阀》,其专利号为CN200920137849.8。它包括一套筒、一限流装置及一单向阀,单向阀是密封地置于套筒的出水端,而限流装置是设置在套筒的进水端;其中限流装置包括一省水片支架及套置于省水片支架中的省水片,该省水片为柔性材质,其随水压产生形变对省水片支架的通水孔进行阻挡。它存在有如下不足:因单向阀和限流装置独立分离,因此需二个支架,二个密封圈,则不但浪费材料,而且还会增加止逆阀占用空间。
美国专利数据库在2005年1月4日公告的发明《CARTRIDGE INSERT FOR A FLUID
LINE》,其专利号为US6837267。它和CN200920137849.8不同之处在于,所述限流装置和单向阀共用支架。因阀芯需套设二个密封圈,其中一个密封圈起密封作用用作为单向阀,另一个密封圈起调节作用用作为限流装置,因此存在有如下不足:1、阀芯轴向长度长,增加用料,增加制造成本,增大占用空间;2、设二个密封圈,增加用料,增加制造成本;3、阀芯处设两个适配密封圈的装配槽,降低阀芯强度,增加阀芯结构复杂度,增加制造成本。
本发明提供了一种节水止逆阀,其克服了背景技术中的止逆阀所存在的不足。
本发明解决其技术问题的所采用的技术方案是:
一种节水止逆阀,它包括:
一阀体(100),它内设水路(110),阀体(100)内孔面至少包括依水路(110)水流正向布置的密封段(111)和节水段(112);
一阀芯(200),它活动装设在水路(110)内,且阀芯(200)外套设密封圈(210);及
一弹簧(300),它顶抵阀芯(200),且使阀芯(200)受到方向为由节水段(112)指向密封段(111)的弹力;
其中:
如果水路(110)水流正向流动且水压力大于弹力,则阀芯(200)顺水压力方向活动使密封圈(210)位于节水段(112),且密封圈(210)受水压力径向外扩变形以减少密封圈(210)外周缘和节水段(112)内孔面间的截面面积;
否则,密封圈(210)位于密封段(111),且密封圈(210)密封密封段(111)内孔面。
一较佳实施例之中:所述密封段(111)设成锥面段。
一较佳实施例之中:所述节水段(112)内孔面设多个环形陈列的凸起条(113),且常态密封圈(210)外周缘直径小于多个凸起台(113)末端面构成直径,且常态密封圈(210)外周缘直径介于密封段(111)的最大直径和最小直径之间。
一较佳实施例之中:还包括:
一阀座(400),它包括一套体(410)、一位于套体(410)内的中心座(420)、若干固接套体(410)和中心座(420)的辐条(430),套体(410)固接阀体(100),弹簧(300)顶抵在中心座(420)和阀芯(200)之间。
一较佳实施例之中:所述中心座(420)内设滑动孔(421),阀芯(200)下凸设导向杆(220),导向杆(220)适配插入滑动孔(421)。
一较佳实施例之中:所述中心座(420)端面凹设下环形槽(422),所述阀芯(200)底面凹设上环形槽(230),弹簧(300)套接导向杆(220)且上下端分别适配设在上环形槽(230)和下环形槽(422)内。
一较佳实施例之中:所述阀体(100)内孔面还至少包括固接段(114),套体(410)外周面固接在固接段(114)内孔面。
一较佳实施例之中:所述阀芯(200)外回转面凹设一环形槽(240),所述密封圈(210)设在环形槽(240)内,且常态密封圈(210)中至少有部分能直接受水路(110)正向水流水压力作用。
一较佳实施例之中:所述环形槽(240)具有一上环形面(241)、一下环形面(242)和一圆柱面(243),上环形面(241)外径小于下环形面(242)外径;所述常态密封圈(210)外周缘直径大于上环形面(241)外径,小于下环形面(242)外径。
一较佳实施例之中:所述阀芯(200)上端面中部凸设一凸柱(250),所述凸柱(250)上部外回转面环形陈列凸设卡凸(260),所述上端面还形成有围绕凸柱(250)的下环形面251,所述下环形面(251)和卡凸(260)之间形成为上述的环形槽(240)。
一较佳实施例之中:所述相邻二卡凸(260)之间设有间隙。
本技术方案与背景技术相比,它具有如下优点:
1、止逆功能和节水功能共用支架和密封圈,只需一个支架和一个密封圈,则能减少用料,降低制造成本,能缩短阀芯轴向长度,减少占用空间,能简化阀芯结构;
2、密封段设成锥面段,便于保证密封强度;
3、设凸起条配合密封圈实现节水功能,能有效规制密封圈变形,节水效果好。
下面结合附图和实施例对本发明作进一步说明。
图1绘示了一较佳实施例的止逆阀的立体示意图之一。
图2绘示了一较佳实施例的止逆阀的立体示意图之二。
图3绘示了一较佳实施例的止逆阀的立体分解示意图之一。
图4绘示了一较佳实施例的止逆阀的立体分解示意图之二。
图5绘示了一较佳实施例的止逆阀的俯视示意图。
图6绘示了图5的A-A剖面示意图之一,此时无水路正向水流或者水路正向水流的水压力小于弹力。
图7绘示了图5的A-A剖面示意图之二,此时水路正向水流的水压力大于弹力。
图8绘示了图5的A-A剖面示意图之三,此时水路反向水流。
图9绘示了图6的B-B剖面示意图。
图10绘示了一较佳实施例的阀体的立体意图之一。
图11绘示了一较佳实施例的阀体的立体示意图之二。
图12绘示了一较佳实施例的阀芯的立体示意图。
图13绘示了另一较佳实施例的阀芯的立体示意图。
请查阅图1至图12,一种节水止逆阀,它包括一阀体100、一阀芯200、一弹簧300和一阀座400。
所述阀体100,它内设贯穿顶底的水路110,外设环形的装配槽120,所述装配槽120处套密封环130。所述阀体100内孔面至少包括依水路110水流正向布置的密封段111、节水段112和固接段114。本实施例之中,所述密封段111设成锥面段,所述锥面段依水流正向流向内径不断变大,但并不以此为限,根据需要,所述密封段111也可设成阶梯孔(通过密封圈靠接在阶梯孔的阶梯面,实现密封)。所述节水段112内孔面设多个环形陈列的凸起条113,而且,本实施例之中,所述凸起条113末端面围成的直径略大于锥面段的最大直径,但不依此为限,也可等于锥面段的最大直径。所述固接段114内孔面设螺纹。
所述阀座400,它包括一套体410、一位于套体410内的中心座420、若干固接套体410和中心座420的辐条430。所述套体410外设卡扣,所述套体410卡扣固接阀体100的固接段114,以固接阀座400和阀体100。
所述阀芯200,它滑动装设在水路110内。所述阀芯200外回转面凹设一环形槽240,环形槽240具有一上环形面241、一下环形面242和一圆柱面243,上环形面241外径小于下环形面242外径。所述阀芯200外回转面套设柔性材料制作而成的密封圈210,而且,所述常态密封圈210外周缘直径大于上环形面241外径,以使密封圈210至少有部分受正向水流水压力直接作用,所述常态密封圈210外周缘直径小于下环形面242外径,以使密封圈210撑设在下环形面242上,以增加变形。本实施例之中:所述阀芯200的位于密封圈210之上的部分的最大外径小于常态密封圈210外周缘直径;常态密封圈210外周缘直径小于多个凸起台113末端面构成直径;常态密封圈210外周缘直径介于密封段111的最大直径和最小直径之间。
所述弹簧300,它顶抵在中心座420和阀芯200之间,使得使阀芯200受到方向为由节水段112指向密封段111的弹力。
为了保证阀芯200滑动方向,最好,所述中心座420内设贯穿滑动孔421,阀芯200下凸设导向杆220,导向杆220适配插入滑动孔421。
为了定位弹簧300,最好,所述中心座420端面凹设下环形槽422,所述阀芯200底面凹设上环形槽230,弹簧300套接导向杆220且上下端分别适配设在上环形槽230和下环形槽422内。
如果水路110水流正向流动且水压力大于弹力,则阀芯200顺水压力方向活动使密封圈210位于节水段112;由于上环形面241外径小于密封圈210外径,使密封圈210能受水压力作用,在下环形面242支撑配合下,密封圈210径向外扩变形,并塞进相邻二凸起条113之间间隔,以减少密封圈210外周缘和节水段112内孔面间的截面面积;其中:压力越大,变形越大,外扩越大,截面面积越小;
否则,密封圈210位于密封段111,且密封圈210密封密封段111内孔面,处于止逆状态。
另一较佳实施例之中,它与上一较佳实施例不同之处在于:请查阅图13,所述阀芯200上端面中部凸设一凸柱250,所述凸柱250上部外回转面环形陈列凸设卡凸260,所述上端面还形成有围绕凸柱250的下环形面251,所述下环形面251和卡凸260之间形成为装配密封圈210的环形槽240。其中:由于相邻二卡凸260间有间隙,因此受水压作用力面积更大,变形更明显,效果更好。
以上所述,仅为本发明较佳实施例而已,故不能依此限定本发明实施的范围,即依本发明专利范围及说明书内容所作的等效变化与修饰,皆应仍属本发明涵盖的范围内。
本发明一种节水止逆阀,具有止逆功能和节水功能共用支架和密封圈,能减少用料,降低制造成本,能缩短阀芯轴向长度,减少占用空间,能简化阀芯结构。
Claims (11)
- 一种节水止逆阀,其特征在于:它包括:一阀体(100),它内设水路(110),阀体(100)内孔面至少包括依水路(110)水流正向布置的密封段(111)和节水段(112);一阀芯(200),它活动装设在水路(110)内,且阀芯(200)外套设密封圈(210);及一弹簧(300),它顶抵阀芯(200),且使阀芯(200)受到方向为由节水段(112)指向密封段(111)的弹力;其中:如果水路(110)水流正向流动且水压力大于弹力,则阀芯(200)顺水压力方向活动使密封圈(210)位于节水段(112),且密封圈(210)受水压力径向外扩变形以减少密封圈(210)外周缘和节水段(112)内孔面间的截面面积;否则,密封圈(210)位于密封段(111),且密封圈(210)密封密封段(111)内孔面。
- 根据权利要求1所述的一种节水止逆阀,其特征在于:所述密封段(111)设成锥面段。
- 根据权利要求2所述的一种节水止逆阀,其特征在于:所述节水段(112)内孔面设多个环形陈列的凸起条(113),且常态密封圈(210)外周缘直径小于多个凸起台(113)末端面构成直径,且常态密封圈(210)外周缘直径介于密封段(111)的最大直径和最小直径之间。
- 根据权利要求3所述的一种节水止逆阀,其特征在于:还包括:一阀座(400),它包括一套体(410)、一位于套体(410)内的中心座(420)、若干固接套体(410)和中心座(420)的辐条(430),套体(410)固接阀体(100),弹簧(300)顶抵在中心座(420)和阀芯(200)之间。
- 根据权利要求4所述的一种节水止逆阀,其特征在于:所述中心座(420)内设滑动孔(421),阀芯(200)下凸设导向杆(220),导向杆(220)适配插入滑动孔(421)。
- 根据权利要求4所述的一种节水止逆阀,其特征在于:所述中心座(420)端面凹设下环形槽(422),所述阀芯(200)底面凹设上环形槽(230),弹簧(300)套接导向杆(220)且上下端分别适配设在上环形槽(230)和下环形槽(422)内。
- 根据权利要求4所述的一种节水止逆阀,其特征在于:所述阀体(100)内孔面还至少包括固接段(114),套体(410)外周面固接在固接段(114)内孔面。
- 根据权利要求1或2或3或4或5或6或7所述的一种节水止逆阀,其特征在于:所述阀芯(200)外回转面凹设一环形槽(240),所述密封圈(210)设在环形槽(240)内,且常态密封圈(210)中至少有部分能直接受水路(110)正向水流水压力作用。
- 根据权利要求8所述的一种节水止逆阀,其特征在于:所述环形槽(240)具有一上环形面(241)、一下环形面(242)和一圆柱面(243),上环形面(241)外径小于下环形面(242)外径;所述常态密封圈(210)外周缘直径大于上环形面(241)外径,小于下环形面(242)外径。
- 根据权利要求8所述的一种节水止逆阀,其特征在于:所述阀芯(200)上端面中部凸设一凸柱(250),所述凸柱(250)上部外回转面环形陈列凸设卡凸(260),所述上端面还形成有围绕凸柱(250)的下环形面251,所述下环形面(251)和卡凸(260)之间形成为上述的环形槽(240)。
- 根据权利要求10所述的一种节水止逆阀,其特征在于:所述相邻二卡凸(260)之间设有间隙。
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CN106089135A (zh) * | 2016-08-29 | 2016-11-09 | 东营市创元石油机械制造有限公司 | 石油钻井用箭式钻具浮阀 |
CN106762301A (zh) * | 2017-01-22 | 2017-05-31 | 无锡威孚高科技集团股份有限公司 | 柴油高压共轨泵用分体式比例流量阀 |
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CN102207215B (zh) * | 2010-12-23 | 2012-11-14 | 厦门松霖科技有限公司 | 一种节水止逆阀 |
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