CN110272093A - Soft water all-in-one machine without interruption - Google Patents

Abstract

The invention discloses a kind of soft water all-in-one machines without interruption, including double beat valve, assistant tank connecting component, main resin container, secondary resin container, ejector, two-position four-way valve, upper piston, lower piston, piston drive mechanism；Main resin container installs double beat valve, secondary resin container installs assistant tank connecting component, double beat valve connects assistant tank connecting component by two-position four-way valve, double beat valve contains upper layer and lower layer cavity, upper piston is installed respectively in upper layer and lower layer cavity, lower piston, it drives piston mobile by piston drive mechanism and two-position four-way valve is cooperated to realize double beat valve, the switching of assistant tank connecting component internal water flow passages, realize main resin container, the alternation of secondary resin container, the soft water all-in-one machine solves existing single tank can not continuous water supply, multiple tank soft brush treatment system structure is complicated, the too big disadvantage of occupied area.

Description

Soft water all-in-one machine without interruption

Technical field

The present invention relates to soft brush treatment system, especially a kind of soft water all-in-one machine without interruption.

Background technique

Integral type water softening device is mainly that single tank supplies water currently on the market, small in size very popular, when the friendship in resin container After changing tank efficiency lost resin, the water hardness reaches the resin in resin container is regenerated after upper limit value after output soft water again.

The shortcomings that existing integral type water softening device: due to being that single tank supplies water, equipment can not continue to provide softened water at this time.For Sales field hotel business place and the place for requiring water supply free of discontinuities in 24 hours, single tank one water softening device currently on the market is It is unable to satisfy demand of the user to uninterrupted soft water.If the soft water system exchanged using multiple tank, multiple tank system mechanism is complicated, Control troublesome in poeration, expensive and bulky, place is restricted the demand of being unable to satisfy.

Summary of the invention

Goal of the invention: it is an object of the present invention to provide a kind of soft water all-in-one machines without interruption, can not be connected with solving existing single tank Disadvantage continuous to supply water, that multiple tank soft brush treatment system structure is complicated, occupied area is too big.

To achieve the goals above, present invention employs the following technical solutions: soft water all-in-one machine without interruption, including double Layer valve, assistant tank connecting component, main resin container, secondary resin container, ejector, two-position four-way valve, upper piston, lower piston, piston driving Mechanism；

Load softening resin in main resin container, secondary resin container, main resin container, secondary resin container tank mouth be equipped with central tube, in Heart pipe lower end insertion softening resin bottom；

Double beat valve is fixed on the tank mouth of main resin container, and double beat valve contains upper layer cavity, lower layer's cavity, upper layer cavity wall by Left-to-right sets gradually salt-sucking port, sewage draining exit, and salt-sucking port is connected to salt box, in the upper chamber between salt-sucking port and sewage draining exit Body bottom set gradually the mouth of a river one from left to right, and crossed the mouth of a river two, crosses the mouth of a river three, set gradually from left to right at the top of lower layer's cavity The mouth of a river four is crossed, the mouth of a river five is crossed, crosses the mouth of a river six, the mouth of a river four is crossed and was connected to the mouth of a river one, the mouth of a river five is crossed and was connected to the mouth of a river two, cross the mouth of a river six It was connected to the mouth of a river three, lower layer's cavity bottom set gradually the mouth of a river seven from left to right, crosses the mouth of a river eight, crosses the mouth of a river seven and was located at the mouth of a river It four and crosses between the mouth of a river five, crosses the mouth of a river eight and be located at the mouth of a river five and crossed between the mouth of a river six, lower layer's cavity wall is from left to right successively Assistant tank intake-outlet one, water outlet, assistant tank intake-outlet two, water inlet are set, and assistant tank intake-outlet one, water outlet were located at water Between mouth four and the excessively mouth of a river seven, assistant tank intake-outlet two was located at the mouth of a river seven and crossed between the mouth of a river five, and water inlet was located at the mouth of a river Immediately below five, the first port of the position four-way valve of assistant tank intake-outlet one and two is connected, the position four-way valve of assistant tank intake-outlet two and two Second port be connected, cross the mouth of a river seven be connected with the central tube upper end of main resin container, excessively the mouth of a river eight and main resin container tank mouth phase Even；

Ejector is arranged in double beat valve, and double beat valve is additionally provided with inner flow passage one, inner flow passage two, and the salt water of ejector enters Mouth is connected to upper layer cavity left end, and the flow inlet of ejector is connected to by inner flow passage one with the mouth of a river five is crossed, inner flow passage One is equipped with control valve, and the outlet of ejector is connected to by inner flow passage two with the mouth of a river four is crossed；

Assistant tank connecting component is fixed on the tank mouth of secondary resin container, and assistant tank connecting component contains inlet and outlet channel one, Inlet and outlet water Runner two, the central tube upper end of one one end of inlet and outlet channel and secondary resin container, one other end of inlet and outlet channel and two position four-way valves Third port be connected, two one end of inlet and outlet channel is connected with the tank mouth of pair resin container, two other end of inlet and outlet channel and two 4th port of four-way valve is connected；

Upper layer cavity is equipped with upper layer gasket, and upper piston covers in the gasket of upper layer, and upper piston contains from left to right successively The cylinder one of setting, cylinder two, connecting rod one, one circumference of cylinder are equipped with groove one, and two circumference of cylinder is successively arranged from left to right Groove two, groove three, cylinder two is interior to be equipped with center flow channels one, and center flow channels one are equipped with axially through cylinder two, lower layer's cavity Lower layer's gasket, lower piston cover in lower layer's gasket, and lower piston contains the cylinder three set gradually from left to right, connecting rod Two, three circumference of cylinder is successively arranged groove four, groove five, groove six, groove seven from left to right, and cylinder two is equipped with center flow channels Two, center flow channels three, two one end of center flow channels are connected to two left side of cylinder, and two other end of center flow channels is connected to groove five, Three one end of center flow channels is connected to groove six, and three other end of center flow channels is connected to two right side of cylinder, and connecting rod two is equipped with diameter To runner；

Upper layer cavity, lower layer's cavity right end be equipped with piston drive mechanism, piston drive mechanism and connecting rod one, connecting rod Two are connected, and drive upper piston, lower piston side-to-side movement by piston drive mechanism.

Further, the upper layer gasket is fixed by upper layer bracket and upper layer cavity inner wall.

Further, lower layer's gasket is fixed by lower floor support with lower layer cavity inner wall.

Further, the cylinder one, cylinder two, connecting rod one are connected through a screw thread.

Further, the cylinder three, connecting rod two are connected through a screw thread.

Further, the piston drive mechanism uses straight line cylinder or motor.

Further, the piston drive mechanism, two-position four-way valve are separately connected control module.

Further, the control module is realized by wireless receiving module and remote manipulator and is wirelessly connected.

The utility model has the advantages that the present invention, using main resin container, secondary resin container, main resin container installs double beat valve, secondary resin container installation Assistant tank connecting component, double beat valve connect assistant tank connecting component by two-position four-way valve, and double beat valve contains upper layer and lower layer cavity, up and down Piston is installed respectively in two layers of cavity, inside the mobile cooperation two-position four-way valve realization double beat valve of piston, assistant tank connecting component Water stream channel switching realizes the alternation of main resin container, secondary resin container, can meet the lasting soft water of family and business place Supply requirement only cooperates double beat valve and assistant tank connecting component by increasing secondary resin container compared with conventional integral water softening device, The demand that continuous water supply is realized in the case where not increasing all-in-one machine volume, fills up a kind of market of soft water all-in-one machine without interruption Blank, while system assembles and use cost, remarkable in economical benefits can be reduced.

Detailed description of the invention

Fig. 1 is present invention soft water all-in-one machine structure schematic diagram without interruption；

Fig. 2 is double beat valve structural schematic diagram；

Fig. 3 is assistant tank connecting component structural schematic diagram；

Fig. 4 is upper piston structural schematic diagram；

Fig. 5 is lower piston structural schematic diagram；

Fig. 6 is double beat valve, upper piston, lower piston, piston drive mechanism assembling schematic diagram；

Water flow graph when Fig. 7 is the work of main resin container, secondary resin container water filling；

Water flow graph when Fig. 8 is the work of main resin container, secondary resin container closing；

Water flow graph when Fig. 9 is the work of main resin container, secondary resin container suction salt；

Water flow graph when Figure 10 is the work of main resin container, secondary resin container backwash；

Figure 11 is water flow graph when main resin container works, secondary resin container expresses；

Water flow graph when Figure 12 is secondary resin container work, the water filling of main resin container；

Water flow graph when Figure 13 is secondary resin container work, the closing of main resin container；

Water flow graph when Figure 14 is secondary resin container work, main resin container suction salt；

Water flow graph when Figure 15 is secondary resin container work, main resin container backwash；

Figure 16 is water flow graph when secondary resin container works, main resin container expresses.

In figure: 1- double beat valve；The upper layer 1-1- cavity；1-2- lower layer cavity；1-3- salt-sucking port；1-4- crosses the mouth of a river one；1-5- Cross the mouth of a river two；1-6- crosses the mouth of a river three；1-7- sewage draining exit；1-8- crosses the mouth of a river four；1-9- crosses the mouth of a river five；1-10- crosses the mouth of a river six；1- 11- crosses the mouth of a river seven；1-12- crosses the mouth of a river eight；1-13- assistant tank intake-outlet one；1-14- water outlet；1-15- assistant tank intake-outlet Two；1-16- water inlet；2- assistant tank connecting component；2-1- inlet and outlet channel one；2-2- inlet and outlet channel two；The main resin container of 3-；4- Secondary resin container；5- ejector；6- softens resin；7- central tube；The upper layer 8- gasket；9- upper piston；9-1- cylinder one；9-2- column Body two；9-3- connecting rod one；9-4- groove one；9-5- groove two；9-6- groove three；9-7- center flow channels one；The sealing of 10- lower layer Pad；11- lower piston；11-1- cylinder three；11-2- connecting rod two；11-3- groove four；11-4- groove five；11-5- groove six； 11-6- groove seven；11-7 center flow channels two；11-8- center flow channels three；11-9- radial flow path；12- piston drive mechanism.

Specific embodiment:

Further explanation is done to the present invention with reference to the accompanying drawing.

As shown in Figure 1, soft water all-in-one machine without interruption of the invention, including double beat valve 1, assistant tank connecting component 2, main resin Tank 3, secondary resin container 4, ejector 5, two-position four-way valve (not shown), upper piston 9, lower piston 11, piston drive mechanism 12.

Load softening resin 6 in main resin container 3, secondary resin container 4, main resin container 3, secondary resin container 4 tank mouth be equipped with center Pipe 7,7 lower end of central tube insertion softening 6 bottom of resin.

As illustrated in fig. 1 and 2, double beat valve 1 is fixed on the tank mouth of main resin container 3, and double beat valve 1 contains upper layer cavity 1-1, lower layer Cavity 1-2, upper layer cavity 1-1 side wall set gradually salt-sucking port 1-3, sewage draining exit 1-7 from left to right, and salt-sucking port 1-3 and salt box connect It is logical, one 1- of the mouth of a river was set gradually from left to right in the upper layer bottom cavity 1-1 between salt-sucking port 1-3 and sewage draining exit 1-7 4, it crosses two 1-5 of the mouth of a river, cross three 1-6 of the mouth of a river.Four 1-8 of the mouth of a river was set gradually at the top of lower layer cavity 1-2 from left to right, crosses the mouth of a river five 1-9, six 1-10 of the mouth of a river is crossed, crosses four 1-8 of the mouth of a river and was connected to one 1-4 of the mouth of a river, crossed five 1-9 of the mouth of a river and be connected to two 1-5 of the mouth of a river, cross the mouth of a river Six 1-10 were connected to three 1-6 of the mouth of a river, and the bottom lower layer cavity 1-2 set gradually seven 1-11 of the mouth of a river from left to right, crosses eight 1- of the mouth of a river 12, cross seven 1-11 of the mouth of a river be located at four 1-8 of the mouth of a river and cross five 1-9 of the mouth of a river between, cross eight 1-12 of the mouth of a river be located at five 1-9 of the mouth of a river with It crosses between six 1-10 of the mouth of a river, lower layer's cavity 1-2 side wall sets gradually one 1-13 of assistant tank intake-outlet, water outlet 1- from left to right 14, two 1-15 of assistant tank intake-outlet, water inlet 1-16, one 1-13 of assistant tank intake-outlet, water outlet 1-14 were located at four 1-8 of the mouth of a river Between seven 1-11 of the mouth of a river excessively, two 1-15 of assistant tank intake-outlet was located at seven 1-11 of the mouth of a river and crossed between five 1-9 of the mouth of a river, water inlet 1-16 was located at immediately below five 1-9 of the mouth of a river, and one 1-13 of assistant tank intake-outlet is connected with the first port of two position four-way valves, assistant tank into Two 1-15 of water outlet is connected with the second port of two position four-way valves, crosses the 7 upper end phase of central tube of seven 1-11 of the mouth of a river and main resin container 3 Even, eight 1-12 of the mouth of a river is crossed to be connected with the tank mouth of main resin container 3.

Ejector 5 is arranged in double beat valve 1, and double beat valve 1 is additionally provided with inner flow passage one, inner flow passage two (does not show in figure Out), the brine inlet of ejector 5 is connected to upper layer cavity 1-1 left end, and the flow inlet of ejector 5 passes through inner flow passage one It is connected to five 1-9 of the mouth of a river is crossed, inner flow passage one is equipped with control valve, and the mouth of a river four by inner flow passage two and is crossed in the outlet of ejector 5 1-8 connection.

As shown in figs. 1 and 3, assistant tank connecting component 2 is fixed on the tank mouth of secondary resin container 4, and assistant tank connecting component 2 contains disengaging One 2-1 of water flow passage, two 2-2 of inlet and outlet channel, the central tube upper end of one one end 2-1 of inlet and outlet channel and secondary resin container 4, Inlet and outlet water The one 2-1 other end of runner is connected with the third port of two position four-way valves, the tank of two one end 2-2 of inlet and outlet channel and secondary resin container 4 Mouth is connected, and the two 2-2 other end of inlet and outlet channel is connected with the 4th port of two position four-way valves.

As shown in Figs. 4-6, upper layer cavity 1-1 be equipped with upper layer gasket 8, the upper layer gasket 8 by upper layer bracket with Upper layer cavity 1-1 inner wall is fixed.9 sets of upper piston in upper layer gasket 8, upper piston 9 contains the column that sets gradually from left to right One 9-1 of body, two 9-2 of cylinder, connecting rod one 9-3, one 9-1 of cylinder, two 9-2 of cylinder, one 9-3 of connecting rod are connected by screw thread It connects.One 9-1 circumference of cylinder is equipped with one 9-4 of groove, and two 9-2 circumference of cylinder is successively arranged two 9-5 of groove, three 9- of groove from left to right One 9-7 of center flow channels is equipped in 6, two 9-2 of cylinder, one 9-7 of center flow channels is axially through two 9-2 of cylinder.Lower layer cavity 1-2 dress There is lower layer's gasket 10, lower layer's gasket 10 is fixed by lower floor support with lower layer cavity 1-2 inner wall.11 sets of lower piston exists In lower layer's gasket 10, lower piston 11 contains three 11-1 of cylinder, two 11-2 of connecting rod set gradually from left to right, the cylinder Three 11-1, two 11-2 of connecting rod are connected through a screw thread.Three 11-1 circumference of cylinder is successively arranged four 11-3 of groove, groove from left to right Five 11-4, six 11-5 of groove, seven 11-6 of groove, two 9-2 of cylinder are equipped with two 11-7 of center flow channels, three 11-8 of center flow channels, center Two one end 11-7 of runner is connected to two left side 9-2 of cylinder, and the two 11-7 other end of center flow channels is connected to five 11-4 of groove, center Three one end 11-8 of runner is connected to six 11-5 of groove, and the three 11-8 other end of center flow channels is connected to two right side 9-2 of cylinder.Connection Two 11-2 of bar is equipped with radial flow path 11-9.

Upper layer cavity 1-1, lower layer cavity 1-2 right end be equipped with piston drive mechanism 12, the piston drive mechanism 12 adopts With straight line cylinder or motor.Piston drive mechanism is connected with one 9-3 of connecting rod, two 11-2 of connecting rod, passes through piston drive mechanism 12 drive upper piston 9,11 side-to-side movement of lower piston.

Preferably, the piston drive mechanism, two-position four-way valve are separately connected control module.The control module passes through nothing Line receiving module and remote manipulator, which are realized, to be wirelessly connected.

The course of work of the soft water all-in-one machine without interruption:

Main resin container work, secondary resin container water filling

Upper piston 9, lower piston 11 is driven to be moved to position shown in Fig. 7 by piston drive mechanism 12, two-position four-way valve the Single port and the conducting of the 4th port, second port and third port conducting, raw water enter lower layer cavity 1- by 1-16- water inlet It is divided into two parts after 2.

First part's raw water is entered main resin container 3 and is softened by seven 11-6 of groove, excessively eight 1-12 of the mouth of a river, after softening Water enters lower layer cavity 1-2 by central tube 7, seven 1-11 of the mouth of a river excessively, is then discharged by four 11-3 of groove, water outlet 11-4, It is used for client.

Second part raw water passed through five 1-9 of the mouth of a river, two 1-5 of the mouth of a river excessively enters upper layer cavity 1-1, then passed through groove two 9-5, it crosses three 1-6 of the mouth of a river, cross 11 right end of lower piston that six 1-10 of the mouth of a river flows back into lower layer cavity 1-2, then passing through center flow channels Three 11-8, six 11-5 of groove, two 1-15 of assistant tank intake-outlet, two-position four-way valve, two 2-2 of inlet and outlet channel enter secondary resin container 4 Softened, the water after softening passes through central tube 7, one 2-1 of inlet and outlet channel, two-position four-way valve, one 1-13 of assistant tank intake-outlet Into lower layer cavity 1-2, then passed through four 1-8 of the mouth of a river, mistake one 1-4 of the mouth of a river, one 9-4 of groove, salt-sucking port 1-3 and enters salt box, Salt box is filled the water.

Main resin container work, secondary resin container are closed

Upper piston 9 is driven to be moved to position shown in Fig. 8, lower piston 11 in position as shown in Figure 7 by piston drive mechanism 12 Position is constant, and two-position four-way valve first port and third port conducting, second port and the conducting of the 4th port, raw water pass through 1- 16- water inlet is divided into two parts after entering lower layer cavity 1-2.

At this point, first part's raw water is softened yet by main resin container 3, used for client.

Second part raw water passed through five 1-9 of the mouth of a river, two 1-5 of the mouth of a river excessively enters upper layer cavity 1-1, then passed through the mouth of a river One 1-4, excessively four 1-8 of the mouth of a river, one 1-13 of assistant tank intake-outlet, two-position four-way valve, one 2-1 of inlet and outlet channel enter secondary resin container 4, Then lower layer cavity 1-2 is entered by two 2-2 of inlet and outlet channel, two-position four-way valve, two 1-15 of assistant tank intake-outlet, then led to afterwards It crosses six 11-5 of groove, three 11-8 of center flow channels, excessively six 1-10 of the mouth of a river, three 1-6 of the mouth of a river excessively and enters upper layer cavity 1-1, herein water flow It is blocked by three two sides 1-6 upper layer gasket of the mouth of a river, can not form lasting water flow inside secondary resin container 4, secondary resin container 4 not work Make.

Main resin container work, secondary resin container inhale salt

Upper piston 9 is driven to be moved to position shown in Fig. 9, lower piston 11 in position as shown in Figure 8 by piston drive mechanism 12 Position is constant, and two-position four-way valve first port and third port conducting, second port and the conducting of the 4th port, raw water pass through 1- 16- water inlet is divided into two parts after entering lower layer cavity 1-2.

At this point, first part's raw water is softened yet by main resin container 3, used for client.

Second part raw water passed through five 1-9 of the mouth of a river, two 1-5 of the mouth of a river excessively enters upper layer cavity 1-1, and water flow is crossed water herein Two two sides 1-5 upper layer gaskets of mouth block, and one control valve of inner flow passage is opened at this time, and raw water enters jet stream by inner flow passage one Salt water in salt box is sucked upper layer cavity 1-1 by salt-sucking port 1-3 by the siphonage of ejector by the flow inlet of device, Then enter the brine inlet of ejector 5 by one 9-4 of groove, the upper layer left end cavity 1-1, it is molten that salt water and raw water are mixed into regeneration Liquid, actified solution by the outlet of ejector 5, inner flow passage two, cross four 1-8 of the mouth of a river, one 1-13 of assistant tank intake-outlet, two four Port valve, one 2-1 of inlet and outlet channel enter secondary resin container 4, regenerate to the softening resin 6 to fail in secondary resin container 4, when regeneration The waste water of generation enters lower layer cavity 1-2 by two 2-2 of inlet and outlet channel, two-position four-way valve, two 1-15 of assistant tank intake-outlet, so Upper layer cavity 1-1 is entered by six 11-5 of groove, three 11-8 of center flow channels, excessively six 1-10 of the mouth of a river, three 1-6 of the mouth of a river excessively afterwards, then It is discharged by three 9-6 of groove, sewage draining exit 1-7.

Main resin container work, secondary resin container backwash

Upper piston 9 is driven to be moved to position shown in Figure 10, lower piston 11 in position as shown in Figure 9 by piston drive mechanism 12 Position is constant, and two-position four-way valve first port and third port conducting, second port and the conducting of the 4th port, raw water pass through 1- 16- water inlet is divided into two parts after entering lower layer cavity 1-2.

At this point, first part's raw water is softened yet by main resin container 3, used for client.

Second part raw water passed through five 1-9 of the mouth of a river, two 1-5 of the mouth of a river excessively enters upper layer cavity 1-1, then passed through groove two 9-5, cross one 1-4 of the mouth of a river, cross four 1-8 of the mouth of a river, one 1-13 of assistant tank intake-outlet, two-position four-way valve, one 2-1 of inlet and outlet channel, in Heart pipe 7 enters softening 6 bottom of resin, water flow by by softening resin 6, removing the impurity being trapped in softening resin 6 on lower, The waste water generated when flushing enters lower layer's cavity by two 2-2 of inlet and outlet channel, two-position four-way valve, two 1-15 of assistant tank intake-outlet Then 1-2 enters upper layer cavity by six 11-5 of groove, three 11-8 of center flow channels, excessively six 1-10 of the mouth of a river, three 1-6 of the mouth of a river excessively afterwards Then 1-1 is discharged by three 9-6 of groove, sewage draining exit 1-7.

Main resin container work, secondary resin container express

Upper piston 9 is driven to be moved to position shown in Figure 11, lower piston in position as shown in Figure 10 by piston drive mechanism 12 11 positions are constant, and two-position four-way valve first port and the conducting of the 4th port, second port and third port conducting, raw water pass through 1- 16- water inlet is divided into two parts after entering lower layer cavity 1-2.

At this point, first part's raw water is softened yet by main resin container 3, used for client.

Second part raw water passed through five 1-9 of the mouth of a river, two 1-5 of the mouth of a river excessively enters upper layer cavity 1-1, then passed through groove two 9-5, excessively three 1-6 of the mouth of a river, six 1-10 of the mouth of a river excessively enter lower layer cavity 1-2, then pass through three 11-8 of center flow channels, six 11- of groove 5, two 1-15 of assistant tank intake-outlet, two-position four-way valve, two 2-2 of inlet and outlet channel enter secondary resin container 4, and water flow is by passing through under upper Soften resin 6, softening resin 6 is compacted, is prepared for subsequent softened water, then water flow passes through one 2-1 of inlet and outlet channel, two again Position four-way valve, one 1-13 of assistant tank intake-outlet enter lower layer cavity 1-2, then passed through four 1-8 of the mouth of a river, cross one 1-4 of the mouth of a river into Enter upper layer cavity 1-1. and then passes through one 9-7 of center flow channels, three 9-6 of groove, sewage draining exit 1-7 discharge.

Secondary resin container work, the water filling of main resin container

After the softening resin 6 of main resin container 3 fails, upper piston 9, lower piston 11 is driven to move by piston drive mechanism 12 It moves to position shown in Figure 12, two-position four-way valve first port and third port conducting, second port and the conducting of the 4th port, raw water It is divided into two parts after entering lower layer cavity 1-2 by 1-16- water inlet.

First part's raw water passes through seven 11-6 of groove, two 1-15 of assistant tank intake-outlet, two-position four-way valve, inlet and outlet channel two Softened into secondary resin container 4, the water after softening by central tube 7, one 2-1 of inlet and outlet channel, two-position four-way valve, assistant tank into One 1-13 of water outlet enters lower layer cavity 1-2, is then discharged by four 11-3 of groove, water outlet 11-4, uses for client.

Second part raw water passed through five 1-9 of the mouth of a river, two 1-5 of the mouth of a river excessively enters upper layer cavity 1-1, then passed through groove two 9-5, cross three 1-6 of the mouth of a river, cross six 1-10 of the mouth of a river enter lower layer cavity 1-2, then by radial flow path 11-9, cross eight 1-12 of the mouth of a river Softened into main resin container 3, the water after softening enters lower layer cavity 1-2 by central tube 7, seven 1-11 of the mouth of a river excessively, then Enter upper layer cavity 1-1 by five 11-4 of groove, two 11-7 of center flow channels, excessively four 1-8 of the mouth of a river, one 1-4 of the mouth of a river excessively, then passes through One 9-4 of groove, salt-sucking port 1-3 enter salt box, fill the water to salt box.

Secondary resin container work, main resin container are closed

Upper piston 9 is driven to be moved to position shown in Figure 13, lower piston in position as shown in Figure 12 by piston drive mechanism 12 11 positions are constant, and two-position four-way valve first port and third port conducting, second port and the conducting of the 4th port, raw water pass through 1- 16- water inlet is divided into two parts after entering lower layer cavity 1-2.

At this point, first part's raw water is softened yet by secondary resin container 4, used for client.

Second part raw water passed through five 1-9 of the mouth of a river, two 1-5 of the mouth of a river excessively enters upper layer cavity 1-1, then passed through the mouth of a river One 1-4, it crosses four 1-8 of the mouth of a river, two 11-7 of center flow channels, five 11-4 of groove, cross seven 1-11 of the mouth of a river, central tube 7, into main resin container 3, then passed through eight 1-12 of the mouth of a river and enter lower layer cavity 1-2, and then passed through radial flow path 11-9, cross six 1-10 of the mouth of a river, cross water Three 1-6 of mouth enter upper layer cavity 1-1, and water flow is blocked by three two sides 1-6 upper layer gasket of the mouth of a river herein, main 3 inside nothing of resin container Method forms lasting water flow, and main resin container 3 does not work.

Secondary resin container work, main resin container inhale salt

Upper piston 9 is driven to be moved to position shown in Figure 14, lower piston in position as shown in Figure 13 by piston drive mechanism 12 11 positions are constant, and two-position four-way valve first port and third port conducting, second port and the conducting of the 4th port, raw water pass through 1- 16- water inlet is divided into two parts after entering lower layer cavity 1-2.

At this point, first part's raw water is softened yet by secondary resin container 4, used for client.

Second part raw water passed through five 1-9 of the mouth of a river, two 1-5 of the mouth of a river excessively enters upper layer cavity 1-1, and water flow is by the mouth of a river herein Three two sides 1-6 upper layer gaskets block, and one control valve of inner flow passage is opened at this time, and raw water enters ejector by inner flow passage one Flow inlet the salt water in salt box is sucked by salt-sucking port 1-3, so by cavity 1-1 in upper layer by the siphonage of ejector Enter the brine inlet of ejector 5 by one 9-4 of groove, the upper layer left end cavity 1-1 afterwards, it is molten that salt water and raw water are mixed into regeneration Liquid, actified solution pass through the outlet of ejector 5, inner flow passage two, cross four 1-8 of the mouth of a river, two 11-7 of center flow channels, five 11- of groove 4, seven 1-11 of the mouth of a river, central tube 7 are crossed into main resin container 3, the softening resin 6 to fail in main resin container 3 is regenerated, is regenerated When the waste water that generates passed through eight 1-12 of the mouth of a river and enter lower layer cavity 1-2, by radial flow path 11-9, cross six 1-10 of the mouth of a river, It crosses three 1-6 of the mouth of a river and enters upper layer cavity 1-1, be discharged by three 9-6 of groove, sewage draining exit 1-7.

Secondary resin container work, main resin container backwash

Upper piston 9 is driven to be moved to position shown in Figure 15, lower piston in position as shown in Figure 14 by piston drive mechanism 12 11 positions are constant, and two-position four-way valve first port and third port conducting, second port and the conducting of the 4th port, raw water pass through 1- 16- water inlet is divided into two parts after entering lower layer cavity 1-2.

At this point, first part's raw water is softened yet by secondary resin container 4, used for client.

Second part raw water passed through five 1-9 of the mouth of a river, excessively two 1-5 of the mouth of a river and enters upper layer cavity 1-1, then passed through two 9- of groove 5, cross one 1-4 of the mouth of a river, cross four 1-8 of the mouth of a river and enter lower layer cavity 1-2, then by two 11-7 of center flow channels, five 11-4 of groove, cross water Mouthful seven 1-11, central tube 7 enter 6 bottom of softening resin of main resin container 3, and water flow is by by softening resin 6, removing and cutting on lower The impurity in softening resin 6 is stayed in, the waste water that when flushing generates passed through eight 1-12 of the mouth of a river and enters lower layer cavity 1-2, then passed through Radial flow path 11-9, excessively six 1-10 of the mouth of a river enter upper layer cavity 1-1, then are discharged by three 9-6 of groove, sewage draining exit 1-7.

Secondary resin container work, main resin container express

Upper piston 9 is driven to be moved to position shown in Figure 16, lower piston in position as shown in Figure 15 by piston drive mechanism 12 11 positions are constant, and two-position four-way valve first port and third port conducting, second port and the conducting of the 4th port, raw water pass through 1- 16- water inlet is divided into two parts after entering lower layer cavity 1-2.

At this point, first part's raw water is softened yet by secondary resin container 4, used for client.

Second part raw water passed through five 1-9 of the mouth of a river, excessively two 1-5 of the mouth of a river and enters upper layer cavity 1-1, then passed through two 9- of groove 5, cross three 1-6 of the mouth of a river, cross six 1-10 of the mouth of a river and enter lower layer cavity 1-2, then by radial flow path 11-9, cross eight 1-12 of the mouth of a river and enter Main resin container 3, water flow is by by softening resin 6, softening resin 6 being compacted, is prepared for subsequent softened water, then water under upper Stream again by central tube 7, cross seven 1-11 of the mouth of a river and enter lower layer cavity 1-2, then pass through five 11-4 of groove, two 11-7 of center flow channels, It crosses four 1-8 of the mouth of a river, excessively one 1-4 of the mouth of a river and enters upper layer cavity 1-1, then pass through one 9-7 of center flow channels, three 9-6 of groove, sewage draining exit 1- 7 discharges.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (8)

1. soft water all-in-one machine without interruption, it is characterised in that: including double beat valve (1), assistant tank connecting component (2), main resin container (3), secondary resin container (4), ejector (5), two-position four-way valve, upper piston (9), lower piston (11), piston drive mechanism (12)；

Load softening resin (6) in main resin container (3), secondary resin container (4), main resin container (3), secondary resin container (4) tank mouth set Have central tube (7), central tube (7) lower end insertion softening resin (6) bottom；

Double beat valve (1) is fixed on the tank mouth of main resin container (3), and double beat valve (1) contains upper layer cavity (1-1), lower layer cavity (1- 2), upper layer cavity (1-1) side wall sets gradually salt-sucking port (1-3), sewage draining exit (1-7), salt-sucking port (1-3) and salt box from left to right Connection, set gradually from left to right in bottom upper layer cavity (1-1) between salt-sucking port (1-3) and sewage draining exit (1-7) The mouth of a river one (1-4) crosses the mouth of a river two (1-5), crosses the mouth of a river three (1-6), sets gradually water from left to right at the top of lower layer's cavity (1-2) Four (1-8) of mouth, it crosses the mouth of a river five (1-9), cross the mouth of a river six (1-10), crossing the mouth of a river four (1-8) and be connected to the mouth of a river one (1-4), cross the mouth of a river Five (1-9) were connected to the mouth of a river two (1-5), cross the mouth of a river six (1-10) be connected to the mouth of a river three (1-6), lower layer's cavity bottom (1-2) by Left-to-right set gradually the mouth of a river seven (1-11), cross the mouth of a river eight (1-12), cross the mouth of a river seven (1-11) be located at the mouth of a river four (1-8) with It crosses between the mouth of a river five (1-9), crosses the mouth of a river eight (1-12) and be located at the mouth of a river five (1-9) and crossed between the mouth of a river six (1-10), lower layer's chamber Body (1-2) side wall sets gradually assistant tank intake-outlet one (1-13), water outlet (1-14), assistant tank intake-outlet two from left to right (1-15), water inlet (1-16), assistant tank intake-outlet one (1-13), water outlet (1-14) were located at the mouth of a river four (1-8) and crossed water Between seven (1-11) of mouth, assistant tank intake-outlet two (1-15) was located at the mouth of a river seven (1-11) and crossed between the mouth of a river five (1-9), water inlet Mouth (1-16) was located at immediately below the mouth of a river five (1-9), the first port phase of assistant tank intake-outlet one (1-13) and two position four-way valves Even, assistant tank intake-outlet two (1-15) is connected with the second port of two position four-way valves, crosses the mouth of a river seven (1-11) and main resin container (3) Central tube (7) upper end be connected, cross the mouth of a river eight (1-12) be connected with the tank mouth of main resin container (3)；

In double beat valve (1), double beat valve (1) is additionally provided with inner flow passage one, inner flow passage two, ejector (5) for ejector (5) setting Brine inlet be connected to upper layer cavity (1-1) left end, the flow inlet of ejector (5) is by inner flow passage one and crosses the mouth of a river Five (1-9) connection, inner flow passage one are equipped with control valve, and the mouth of a river four (1-8) by inner flow passage two and is crossed in the outlet of ejector (5) Connection；

Assistant tank connecting component (2) is fixed on the tank mouth of secondary resin container (4), and assistant tank connecting component (2) contains one (2- of inlet and outlet channel 1), inlet and outlet channel two (2-2), the central tube upper end of the one end (2-1) of inlet and outlet channel one and secondary resin container (4), passes in and out water flow (2-1) other end of road one is connected with the third port of two position four-way valves, the one end (2-2) of inlet and outlet channel two and secondary resin container (4) Tank mouth be connected, (2-2) other end of inlet and outlet channel two is connected with the 4th port of two position four-way valves；

Upper layer cavity (1-1) is equipped with upper layer gasket (8), and upper piston (9) covers in upper layer gasket (8), and upper piston (9) contains Cylinder one (9-1), the cylinder two (9-2), connecting rod one (9-3) set gradually from left to right, (9-1) circumference of cylinder one are equipped with recessed Slot one (9-4), cylinder two (9-2) circumference are successively arranged groove two (9-5), groove three (9-6), cylinder two (9-2) from left to right Interior to be equipped with center flow channels one (9-7), center flow channels one (9-7) are equipped with axially through cylinder two (9-2), lower layer's cavity (1-2) Lower layer's gasket (10), lower piston (11) cover in lower layer's gasket (10), and lower piston (11) contains to be set gradually from left to right Cylinder three (11-1), connecting rod two (11-2), cylinder three (11-1) circumference is successively arranged groove four (11-3), recessed from left to right Slot five (11-4), groove six (11-5), groove seven (11-6), cylinder two (9-2) are equipped with center flow channels two (11-7), center flow channels Three (11-8), the one end (11-7) of center flow channels two are connected to the left side cylinder two (9-2), (11-7) other end of center flow channels two with Groove five (11-4) connection, the one end (11-8) of center flow channels three are connected to groove six (11-5), and center flow channels three (11-8) are another End is connected to the right side cylinder two (9-2), and connecting rod two (11-2) is equipped with radial flow path (11-9)；

Upper layer cavity (1-1), lower layer's cavity (1-2) right end be equipped with piston drive mechanism, piston drive mechanism and connecting rod one (9-3), connecting rod two (11-2) are connected, and drive upper piston (9), lower piston (11) left and right fortune by piston drive mechanism (12) It is dynamic.

2. soft water all-in-one machine without interruption according to claim 1, it is characterised in that: the upper layer gasket (8) passes through Upper layer bracket is fixed with upper layer cavity (1-1) inner wall.

3. soft water all-in-one machine without interruption according to claim 1, it is characterised in that: lower layer's gasket (10) passes through Lower floor support is fixed with lower layer cavity (1-2) inner wall.

4. soft water all-in-one machine without interruption according to claim 1, it is characterised in that: the cylinder one (9-1), cylinder two (9-2), connecting rod one (9-3) are connected through a screw thread.

5. soft water all-in-one machine without interruption according to claim 1, it is characterised in that: the cylinder three (11-1), Connecting rod two (11-2) is connected through a screw thread.

6. soft water all-in-one machine without interruption according to claim 1, it is characterised in that: the piston drive mechanism (12) is adopted With straight line cylinder or motor.

7. soft water all-in-one machine without interruption according to claim 1, it is characterised in that: the piston drive mechanism, two Four-way valve is separately connected control module.

8. soft water all-in-one machine without interruption according to claim 7, it is characterised in that: the control module is by wirelessly connecing It receives module and remote manipulator is realized and is wirelessly connected.