WO2019056807A1 - 一种集溢流和排污为一体的软水机集成水路装置 - Google Patents
一种集溢流和排污为一体的软水机集成水路装置 Download PDFInfo
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- WO2019056807A1 WO2019056807A1 PCT/CN2018/090635 CN2018090635W WO2019056807A1 WO 2019056807 A1 WO2019056807 A1 WO 2019056807A1 CN 2018090635 W CN2018090635 W CN 2018090635W WO 2019056807 A1 WO2019056807 A1 WO 2019056807A1
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- overflow
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F5/00—Softening water; Preventing scale; Adding scale preventatives or scale removers to water, e.g. adding sequestering agents
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- the invention relates to a soft water device, in particular to a water softener integrated waterway device integrating overflow and sewage.
- the water softener on the market needs to discharge the water beyond the defined height. It is necessary to separately install the overflow pipe at the same time as the sewage pipe is installed, which leads to an increase in cost, complicated installation, and an increase in external leakage points.
- the external pipes for sewage and overflow are generally fixed on the side wall of the water softener with a lock nut, and the lock nut needs to be installed inside the body of the water softener. Because the internal space of the water softener is small and the operation is difficult, the installation takes time and effort.
- the present invention provides a water softener integrated waterway device integrating overflow and sewage discharge.
- the device integrates the external pipes of sewage discharge and overflow, thereby facilitating installation operation and reducing the risk of leakage of the water softener.
- a water softener integrated waterway device integrating overflow and sewage, including an inlet portion and a water outlet portion;
- the water inlet portion comprises a sewage connection pipe, a total flow channel cavity, an overflow cavity body and an overflow sewage integrated connection pipe, and the water inlet end of the overflow sewage connection pipe is connected with the total flow channel cavity, and the sewage connection pipe is watered
- the end is connected with the sewage pipe of the water softener, and the water outlet end of the sewage connection pipe is connected with the total flow channel cavity, the overflow cavity is located above the total flow channel cavity, and the overflow cavity is provided with an overflow port at the top of the overflow cavity, and the overflow cavity interior a float ball is provided, and the bottom of the overflow chamber is connected to the total flow channel cavity;
- the water outlet portion includes a drain joint, and the water inlet end of the drain joint is connected to the water outlet end of the overflow drain integrated pipe through the seal joint.
- the sealing joint comprises a gasket, a rotation preventing gasket, a drain joint sealing ring and a locking sleeve;
- the outer circumference of the overflow sewage integrated connection pipe has an annular convex portion a, and the annular convex portion a is disposed adjacent to the water discharge end of the overflow sewage integrated connection pipe to sequentially provide a sealing pad and a rotation preventing washer, and the inner hole and the overflow of the rotation preventing gasket
- the flow and sewage integrated connection pipe is connected by a key, and the outer circumference of the rotation preventing washer is provided with an outer stop outer ear stopping ear and a rotation preventing pad rotating connection;
- the water inlet end surface of the drainage joint is adhered to the water outlet end surface of the overflow and sewage integrated connection pipe, and the outer circumference of the water inlet end of the drainage joint has an annular convex portion b, and the rear portion of the locking sleeve is sleeved on the annular convex portion b,
- the drain joint sealing ring is disposed between the rear portion of the locking sleeve and the annular convex portion b, and the locking sleeve tail portion is sleeved on the drainage joint, and the diameter of the inner hole of the locking sleeve tail portion is smaller than the outer diameter of the annular convex portion b,
- the front part of the locking sleeve is threadedly connected with the water outlet end of the overflow and sewage integrated connecting tube, and the outer circumference of the locking sleeve head is provided with a card slot matched with the outer stopping ear.
- overflow and sewage integrated connecting pipe is a venturi pipe.
- an overflow port sealing ring is disposed inside the overflow port.
- the sewage connection pipe, the total flow channel cavity, the overflow cavity, the overflow sewage integrated connection pipe and the annular convex portion a are integrally formed.
- the water inlet end of the sewage connection pipe is provided with a quick joint, and a quick joint sealing ring is arranged between the quick joint and the sewage connection pipe.
- drain joint is a right angle bent joint.
- the water softener integrated waterway device integrates the sewage discharge and overflow functions, avoiding the simultaneous installation of two discharge pipes and saving space;
- the drainage pipeline utilizes the Venturi effect, which greatly increases the flow rate of liquid discharge and improves the discharge efficiency
- the drain joint adopts a right angle bend joint, and the outlet end of the drain joint can be rotated 360°, which can meet the installation requirements of different occasions, reduce the knot of the pipeline, prevent the risk of leakage, and reduce the looseness caused by external force during transportation. ;
- Figure 1 is a schematic view of the structure of the present invention
- Figure 2 is an end view of the rotary pad
- Figure 3 is a cross-sectional view of the head of the locking sleeve
- Figure 4 is a state diagram of the present invention when performing an overflow operation
- Figure 5 is a state diagram of the present invention when performing a sewage discharge operation
- Fig. 6 is a view showing a state in which sewage discharge and sewage discharge operations are simultaneously performed in the present invention.
- the water softener integrated waterway device integrating the overflow and the sewage is integrated, and includes a water inlet portion and a water outlet portion.
- the water inlet portion includes a sewage connection pipe 3, a total flow path cavity 8, an overflow cavity 7, and an overflow sewage integrated connection pipe 9.
- the overflow sewage integrated connection pipe 9 is a venturi pipe, and the water inlet end of the overflow sewage integrated connection pipe 9 is connected with the total flow channel cavity 8, and the water inlet end of the sewage connection pipe 3 is connected with the sewage pipe of the water softener, for the convenience.
- the water inlet end of the sewage connection pipe 3 is assembled with the sewage pipe of the water softener, the quick connection 2 is provided at the water inlet end of the sewage connection pipe 3, and the quick joint sealing ring 1 is provided between the quick joint 2 and the sewage connection pipe 3 to prevent The sewage leaks, the water outlet end of the sewage connection pipe 3 is connected with the total flow channel cavity 8, the overflow cavity 7 is located above the total flow channel cavity 8, and the overflow cavity 4 is provided with an overflow port 4 at the top of the overflow cavity 4, and the inside of the overflow port 4 An overflow sealing ring 5 is provided, and a floating ball 6 is arranged in the overflow cavity 7, and the bottom of the overflow cavity 7 communicates with the total flow channel cavity 8.
- the sewage connection pipe 3, the total flow channel cavity 8, the overflow cavity 7, the overflow sewage integrated connection pipe 9 and the annular convex portion a9-1 are integrally formed by a casting process.
- the water outlet portion includes a drain joint 14, the drain joint 14 is a right angle bent joint, and the water inlet end of the drain joint 14 is connected to the water outlet end of the overflow sewage integrated joint pipe 9 through a sealing joint.
- the sealing joint includes a gasket 10, a rotation preventing gasket 11, a drain joint sealing ring 12, and a locking sleeve 13.
- the outer circumference of the overflow sewage integrated connection pipe 9 has an annular convex portion a9-1, and the annular convex portion a9-1 is disposed adjacent to the water discharge end of the overflow sewage integrated connection pipe 9 in order to provide a gasket 10 and a rotation preventing washer 11 in sequence.
- the inner hole of the rotation preventing washer 11 and the overflow and sewage integrated connection tube 9 are connected by a key 11-2, and the outer circumference of the rotation preventing washer 11 is provided with an outer stopper ear 11-1, the outer stopper ear 11-1 and the rotation preventing pad
- the sheet 11 is rotatably connected.
- the water inlet end surface of the sewage connection joint 14 is fitted with the water outlet end surface of the overflow sewage integrated connection pipe 9, and the outer circumference of the water outlet end of the drainage joint 14 has an annular convex portion b14-1, and the rear portion of the locking sleeve 13 is sleeved in the ring shape.
- the bent joint seal ring 12 is disposed between the rear portion of the lock sleeve 13 and the annular boss portion b14-1, and the tail portion of the lock sleeve 13 is sleeved on the drain joint 14, the lock sleeve
- the diameter of the inner hole of the tail portion of the cylinder 13 is smaller than the outer diameter of the annular convex portion b14-1, and the front portion of the locking sleeve 13 is screwed with the water outlet end of the overflow and sewage integrated connecting tube 9, and the outer circumference of the head of the locking sleeve 13 is provided.
- a card slot 13-1 that matches the outer stop ear 11-1.
- the side wall of the water softener body 15 is now provided with a mounting hole matching the outer diameter of the overflow and sewage integrated connecting pipe 9, and the water inlet portion is placed.
- the water inlet end of the sewage connection pipe 3 and the sewage pipe of the water softener are connected through the quick joint 2, and then the water outlet end of the overflow sewage integrated pipe 9 is passed through the mounting hole of the side wall of the water softener body 15, so that The annular convex portion a9-1 and the gasket 10 on the overflow sewage integrated connection pipe 9 are located inside the water softener body 15, and the rotation preventing washer 11 is located outside the water softener body 15, and the water discharge portion is placed outside the water softener body 15, The water outlet end of the locking sleeve 13 and the overflow sewage integrated connection pipe 9 is screwed.
- the outer stopper ear 11-1 needs to be rotated to the uppermost position to prevent it from locking the sleeve 13 Interference occurs.
- the gasket 10 and the rotation preventing washer 11 are pressed against the side wall of the water softener body 15 from both sides, and the tail portion of the locking sleeve 13 is axially pressed against the overflow and sewage integrated connecting pipe 9.
- Annular boss a9-1, thereby making the drain connector 1 4 The end face of the water inlet end is closely adhered to the end face of the water outlet end of the integrated pipe of the overflow sewage discharge pipe.
- the outer stop ear 11-1 is rotated downward and snapped into the slot 13-1 of the locking sleeve 13.
- the height of the upper surface of the overflow port 4 is the highest liquid level in the set water softener.
- the overflow port 4 has a water flow
- the sewage connection pipe 3 has no water flow
- the floating ball 6 is in the lower position, at which time the liquid flows from the overflow cavity 7 into the total flow channel cavity.
- the body 8 is discharged from the water softener through the overflow sewage integrated connection pipe 9 and the drain joint 14.
- the overflow chamber 7 is filled with more liquid, and the floating ball 6 is suspended due to the small density, blocking the overflow port 4, and then the liquid of the overflow chamber 7 is again discharged from the drain joint. 14 is discharged, the anti-reverse ball 6 descends, the overflow port 4 is opened again, and the liquid is continuously poured, and the liquid is discharged through the overflow and sewage integrated connection pipe 9 and the drain joint 14 and then discharged to the water softener.
- the overflow sewage integrated connecting pipe 9 of the present invention adopts a venturi pipe, and when the liquid enters the overflow sewage integrated connecting pipe 9 from the total flow channel cavity 8, according to the venturi effect principle, the liquid flows in the venturi pipe, in the pipeline At the narrowest point, the dynamic pressure reaches a maximum and the static pressure reaches a minimum. The velocity of the liquid rises as the cross-sectional area of the flow channel decreases. The entire inrush current undergoes the process of shrinking the pipeline at the same time, so the pressure is also reduced at the same time, which in turn creates a pressure difference. At this time, the atmospheric pressure is greater than the liquid pressure in the pipeline.
- This pressure difference provides an external suction force to the fluid, thereby increasing the flow rate of the liquid in the pipeline and allowing it to flow at a rapid rate.
- the overflow sewage integrated connecting pipe 9 can function as a siphon to accelerate the discharge speed of the liquid in the total flow channel cavity 8.
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- Environmental & Geological Engineering (AREA)
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Abstract
本发明公开了一种集溢流和排污为一体的软水机集成水路装置,包括进水部分和出水部分;进水部分包括排污连接管、总流道腔体、溢流腔体和溢流排污一体连接管,溢流排污一体连接管进水端与总流道腔体相连,排污连接管进水端与软水机的排污管相连,排污连接管出水端与总流道腔体相连,溢流腔体位于总流道腔体上方,溢流腔体顶部设有溢流口,溢流腔体内部设有浮球,溢流腔体底部与总流道腔体连通;出水部分包括排水接头,排水接头进水端通过密封接头与溢流排污一体连接管出水端相连。本发明将排污和溢流功能集结于一体,避免了同时安装两个排出管道,节省空间,便于安装操作,降低了软水机泄露的风险。
Description
本发明涉及软水设备,尤其是一种集溢流和排污为一体的软水机集成水路装置。
目前市面上的软水机要实现液体超过限定高度将水排出的功能,需要在安装排污管的同时另外单独配备溢流管,这样会导致成本提高,且安装繁琐,外漏点增加。排污和溢流的外接管道一般都是用锁紧螺母固定软水机的机体侧壁上,而锁紧螺母需要安装软水机的机体内侧,因软水机内部空间小,操作困难,导致安装费时费力,提高了产品成本;由于排污和溢流的外接管道都是通过螺母固定的,无法调整角度,不能满足需适应不同安装环境和不同安装角度的要求;另外外接的排污管旋紧螺母容易出现松动,增加了泄露风险。
发明内容
发明目的:为了克服现有软水机在安装排污和溢流外接管道时存在的操作困难,使用时容易出现泄露的问题,本发明提供了一种集溢流和排污为一体的软水机集成水路装置,该装置将排污和溢流的外接管道集成与一体,从而便于安装操作、降低软水机泄露的风险。
为了实现上述目的,本发明采用了如下的技术方案:一种集溢流和排污为一体的软水机集成水路装置,包括进水部分和出水部分;
所述进水部分包括排污连接管、总流道腔体、溢流腔体和溢流排污一体连接管,溢流排污一体连接管进水端与总流道腔体相连,排污连接管进水端与软水机的排污管相连,排污连接管出水端与总流道腔体相连,溢流腔体位于总流道腔体上方,溢流腔体顶部设有溢流口,溢流腔体内部设有浮球,溢流腔体底部与总流道腔体连通;
所述出水部分包括排水接头,排水接头进水端通过密封接头与溢流排污一体连接管出水端相连。
进一步的,所述密封接头包括密封垫、止转垫片、排水接头密封圈和锁紧套筒;
溢流排污一体连接管中部外圆具有环形凸起部a,环形凸起部a靠近溢流排污一体连接管出水端的一侧依次设置密封垫和止转垫片,止转垫片内孔与溢流排污一体连接管通过键连接,止转垫片外圆设有外止动耳外止动耳与止转垫片转动连接;
排水接头进水端端面与溢流排污一体连接管出水端端面贴合,在排水接头进水端外圆具有环形凸起部b,锁紧套筒中后部套在环形凸起部b上,排水接头密封圈设置在锁紧套筒中后部与环形凸起部b之间,锁紧套筒尾部套在排水接头上,锁紧套筒尾部内孔 直径小于环形凸起部b外径,锁紧套筒中前部与溢流排污一体连接管出水端通过螺纹连接,锁紧套筒头部外圆设有与外止动耳相匹配的卡槽。
进一步的,所述溢流排污一体连接管为文丘里管。
进一步的,所述溢流口内侧设有溢流口密封圈。
进一步的,所述排污连接管、总流道腔体、溢流腔体、溢流排污一体连接管和环形凸起部a为一体成型。
进一步的,所述排污连接管进水端设有快速接头,快速接头与排污连接管之间设有快速接头密封圈。
进一步的,排水接头为直角弯接头。
1、该软水机集成水路装置将排污和溢流功能集结于一体,避免了同时安装两个排出管道,节省空间;
2、排水管路利用文丘里效应,大大增加了液体排出的流速,提高了排出效率;
3、排水接头采用了直角弯接头,排水接头出水端可360°旋转,既可满足不同场合的安装需求,减少管路打结,防止泄露的风险,又可减少运输过程中受外力引起的松动;
4、排污连接管配合通用的快速接头,操作方便;
5、外接的管道只需用一根,下水口密封更好,同时降低成本,经济效益显著。
图1为本发明的结构示意图;
图2为止转垫片的端面图;
图3锁紧套筒头部的截面图;
图4为本发明进行溢流操作时的状态图;
图5为本发明进行排污操作时的状态图;
图6为本发明同时进行排污及排污操作时的状态图。
图中:1-快速接头密封圈,2-快速接头,3-排污连接管,4-溢流口,5-溢流口密封圈,6-浮球,7-溢流腔体,8-总流道腔体,9-溢流排污一体连接管,9-1-环形凸起部a,10-密封垫,11-止转垫片,11-1-外止动耳,11-2-键,12-排水接头密封圈,13-锁紧套筒,13-1-卡槽,14-排水接头,14-1-环形凸起部b,15-软水机机体。
下面结合附图对本发明做更进一步的解释。
如图1所示,本发明的一种集溢流和排污为一体的软水机集成水路装置,包括进水部分和出水部分。所述进水部分包括排污连接管3、总流道腔体8、溢流腔体7和溢流 排污一体连接管9。所述溢流排污一体连接管9为文丘里管,溢流排污一体连接管9进水端与总流道腔体8相连,排污连接管3进水端与软水机的排污管相连,为了便于排污连接管3进水端与软水机的排污管进行装配,所述排污连接管3进水端设有快速接头2,快速接头2与排污连接管3之间设有快速接头密封圈1,防止污水泄露,排污连接管3出水端与总流道腔体8相连,溢流腔体7位于总流道腔体8上方,溢流腔体7顶部设有溢流口4,溢流口4内侧设有溢流口密封圈5,溢流腔体7内设有浮球6,溢流腔体7底部与总流道腔体8连通。本实施例中,所述排污连接管3、总流道腔体8、溢流腔体7、溢流排污一体连接管9和环形凸起部a9-1采用铸造工艺一体成型。所述出水部分包括排水接头14,所述排水接头14为直角弯接头,排水接头14进水端通过密封接头与溢流排污一体连接管9出水端相连。
如图1和2所示,所述密封接头包括密封垫10、止转垫片11、排水接头密封圈12和锁紧套筒13。溢流排污一体连接管9中部外圆具有环形凸起部a9-1,环形凸起部a9-1靠近溢流排污一体连接管9出水端的一侧依次设置密封垫10和止转垫片11,止转垫片11内孔与溢流排污一体连接管9通过键11-2连接,止转垫片11外圆设有外止动耳11-1,外止动耳11-1与止转垫片11转动连接。排污接头14进水端端面与溢流排污一体连接管9出水端端面贴合,在排水接头14进水端外圆具有环形凸起部b14-1,锁紧套筒13中后部套在环形凸起部b14-1上,弯接头密封圈12设置在锁紧套筒13中后部与环形凸起部b14-1之间,锁紧套筒13尾部套在排水接头14上,锁紧套筒13尾部内孔直径小于环形凸起部b14-1外径,锁紧套筒13中前部与溢流排污一体连接管9出水端通过螺纹连接,锁紧套筒13头部外圆设有与外止动耳11-1相匹配的卡槽13-1。
如图3所示,本发明软水机集成水路装置在进行安装时,现在软水机机体15的侧壁开设一个与溢流排污一体连接管9外径相匹配的安装孔,将进水部分包括放置在软水机机体15内侧,排污连接管3进水端与软水机的排污管通过快速接头2连接,然后使溢流排污一体连接管9出水端穿过软水机机体15侧壁的安装孔,使溢流排污一体连接管9上的环形凸起部a9-1和密封垫10位于软水机机体15内侧,止转垫片11位于软水机机体15外侧,将出水部分放置在软水机机体15外侧,将锁紧套筒13与溢流排污一体连接管9出水端通过螺纹锁紧,在螺纹锁紧过程中,需要将外止动耳11-1转动至最上方,防止其与锁紧套筒13产生干涉,当螺纹锁紧到位后,密封垫10和止转垫片11从两侧贴紧软水机机体15的侧壁,锁紧套筒13尾部轴向挤压溢流排污一体连接管9上的环形凸起部a9-1,从而使排污接头14进水端端面与溢流排污一体连接管9出水端端面紧密贴合。最后将外止动耳11-1向下转动并卡入锁紧套筒13的卡槽13-1内。当排水接头14受扭力,带动排水接头密封圈旋转,锁紧套筒13受力,但止转垫片11通过 外止动耳11-1限制锁紧套筒13转动,所以锁紧螺母13不会被旋松引起泄漏。
如图4所示,溢流口4上表面的高度为设定的软水机内最高液位。当软水机内有液体超过溢流口4上表面时,溢流口4有水流,排污连接管3没有水流,浮球6处于下部位置,此时液体从溢流腔体7流入总流道腔体8,经过溢流排污一体连接管9和排水接头14后排出软水机。
如果溢流口4的水流较快,溢流腔体7内充满了较多液体,浮球6因密度小上浮,堵住溢流口4,之后,溢流腔体7的液体又从排水接头14排出,止逆球6下行,溢流口4再打开,继续涌入液体,液体再经过溢流排污一体连接管9和排水接头14后排出软水机。
如图5所示,当有水流经过排污连接管3时,一小部分液体会通过总流道腔体8进入溢流腔体7,当溢流腔体7内充满了较多液体,浮球6因密度小上浮,堵住堵住溢流口4,起到将溢流口4密封的效果,防止排污连接管3内液体流入软水机,剩余液体经过溢流排污一体连接管9和排水接头14后排出软水机。
如图6所示,当同时有水流通过排污连接管3和溢流口4,水流同时从排污连接管3和溢流腔体7汇入总流道腔体8体,再经过溢流排污一体连接管9和排水接头14后排出软水机。
本发明的溢流排污一体连接管9采用了文丘里管,液体从总流道腔体8进入溢流排污一体连接管9时,根据文丘里效应原理,液体在文丘里管里流动,在管道的最细窄处,动态压力达到最大值,静态压力达到最小值。液体的速度因为流道的横截面面积减小而上升。整个涌流都要在同一时间内经历管道缩小的过程,因而压力也在同一时间减小,进而产生压力差。此时大气压力大于管道内液体压力,这个压力差给流体提供一个外在吸力,从而提高了管道内液体的流速,使之以很快的速度流出。此时溢流排污一体连接管9可以起到虹吸的作用,可加速总流道腔体8内液体的排出速度。
以上所述仅是本发明的优选实施方式,应当指出,对于本技术领域的普通技术人员来说,在不脱离本发明原理的前提下,还可以做出若干改进和润饰,这些改进和润饰也应视为本发明的保护范围。
Claims (7)
- 一种集溢流和排污为一体的软水机集成水路装置,其特征在于:包括进水部分和出水部分;所述进水部分包括排污连接管(3)、总流道腔体(8)、溢流腔体(7)和溢流排污一体连接管(9),溢流排污一体连接管(9)进水端与总流道腔体(8)相连,排污连接管(3)进水端与软水机的排污管相连,排污连接管(3)出水端与总流道腔体(8)相连,溢流腔体(7)位于总流道腔体(8)上方,溢流腔体(7)顶部设有溢流口(4),溢流腔体(7)内部设有浮球(6),溢流腔体(7)底部与总流道腔体(8)连通;所述出水部分包括排水接头(14),排水接头(14)进水端通过密封接头与溢流排污一体连接管(9)出水端相连。
- 根据权利要求1所述的一种集溢流和排污为一体的软水机集成水路装置,其特征在于:所述密封接头包括密封垫(10)、止转垫片(11)、排水接头密封圈(12)和锁紧套筒(13);溢流排污一体连接管(9)中部外圆具有环形凸起部a(9-1),环形凸起部a(9-1)靠近溢流排污一体连接管(9)出水端的一侧依次设置密封垫(10)和止转垫片(11),止转垫片(11)内孔与溢流排污一体连接管(9)通过键(11-2)连接,止转垫片(11)外圆设有外止动耳(11-1),外止动耳(11-1)与止转垫片(11)转动连接;排水接头(14)进水端端面与溢流排污一体连接管(9)出水端端面贴合,在排水接头(14)进水端外圆具有环形凸起部b(14-1),锁紧套筒(13)中后部套在环形凸起部b(14-1)上,排水接头密封圈(12)设置在锁紧套筒(13)中后部与环形凸起部b(14-1)之间,锁紧套筒(13)尾部套在排水接头(14)上,锁紧套筒(13)尾部内孔直径小于环形凸起部b(14-1)外径,锁紧套筒(13)中前部与溢流排污一体连接管(9)出水端通过螺纹连接,锁紧套筒(13)头部外圆设有与外止动耳(11-1)相匹配的卡槽(13-1)。
- 根据权利要求1或2所述的一种集溢流和排污为一体的软水机集成水路装置,其特征在于:所述溢流排污一体连接管(9)为文丘里管。
- 根据权利要求3所述的一种集溢流和排污为一体的软水机集成水路装置,其特征在于:所述溢流口(4)内侧设有溢流口密封圈(5)。
- 根据权利要求4所述的一种集溢流和排污为一体的软水机集成水路装置,其特征在于:所述排污连接管(3)、总流道腔体(8)、溢流腔体(7)、溢流排污一体连接管(9)和环形凸起部a(9-1)为一体成型。
- 根据权利要求5所述的一种集溢流和排污为一体的软水机集成水路装置,其特征在于:所述排污连接管(3)进水端设有快速接头(2),快速接头(2)与排污连接管 (3)之间设有快速接头密封圈(1)。
- 根据权利要求6所述的一种集溢流和排污为一体的软水机集成水路装置,其特征在于:排水接头(14)为直角弯接头。
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