CN107572631A - Water process energy saver - Google Patents

Abstract

Water process energy saver, it includes a cylinder, two-piston, a displacement piece, four check-valves, a pump and a filter core；Cylinder inboard wall face protrudes the stopper section of two axially spaced-aparts setting；Two-piston is movably disposed in cylinder, and each piston is provided with a magnetic element；Displacement piece is movably disposed between two stopper sections in cylinder, the opposite sides face of displacement piece is respectively equipped with a magnetic element, the magnetic element of two magnetic elements respectively selectively with two-piston repels each other, and displacement piece optionally blocks a wherein waterwater entrance for cylinder；Four check-valves are connected to two water inlets and two delivery ports of cylinder；Two check-valves of two water inlets are connected in parallel in the delivery port of pump；Two check-valves of two delivery port are connected in parallel in the water inlet of filter core, and two waterwater entrances of cylinder are connected in parallel in the wastewater outlet of filter core；The present invention reaches the purpose of steering by way of magnetic force repels each other, therefore unitary construction is simple, not only with energy-saving effect, and can reduce cost and fault rate.

Description

Water process energy saver

Technical field

The present invention relates to a kind of device for desalinizing seawater or filtering pure water processed, espespecially a kind of Portable water processing energy-conservation dress Put.

Background technology

Portable water processing unit is with being available for users to and being carried on, and can be used to desalinization at any time or by fresh water Filtering produces the device of pure water, and it is mainly pushed seawater or fresh water into filter core with electrodynamic pump, to reach desalinization Or the purpose for producing pure water is filtered by fresh water；However, for the ease of carrying, therefore the volume of Portable water processing unit has Limit, and then the amount of capacity of the battery of electrodynamic pump is also limited, therefore can be desalinizing seawater or be filtered by fresh water the amount of pure water processed Be restricted, to there is many dealers to add various structures in Portable water processing unit to save the electricity of battery, with Phase can desalinate the seawater of more Large Copacity or filtering produces the purpose of a greater amount of pure water.

Refer to shown in Fig. 8, the Portable water processing unit of one of which prior art includes a cylinder 91, one first Big piston 921, a second largest piston 922, a waste water control unit 93, one first valve piston 941, one second valve piston 942,1 the One entering water electromagnetic valve 951, one first water solenoid valve 952, one second entering water electromagnetic valve 961, one second water solenoid valve 962, One high-pressure pump 97 and a filter core 98.

A midfeather 915 is provided with cylinder 91, between the 9111 and first big piston 921 of first end of cylinder 91 formed with One first space 911, formed with a second space 912, midfeather 915 and second between the first big piston 921 and midfeather 915 Formed with one the 3rd space 913 between big piston 922, formed with one between the second end 9141 of second largest piston 922 and cylinder 91 The wall in the 4th space 914, the first space 911 and the 4th space 914 is respectively equipped with a water inlet and a delivery port, second space 912 and the 3rd the wall in space 913 be respectively provided with a waste water mouth 9121,9131；Two big pistons 921,922 surface areas are identical and are provided with Magnetic identical magnetic pole (such as N poles), the first big piston 921 are movably disposed in first space 911 and the second space 912 In, second largest piston 922 is movably disposed in the 3rd space 913 and the 4th space 914, and two big pistons 921,922 It is connected with a body of rod, therefore two big pistons 921,922 are jointly mobile；Waste water control unit 93 is located in the outside wall surface of cylinder 91, Formed with one the 5th space 931, the first valve piston 941 and second between the one end of waste water control unit 93 and the first valve piston 941 Formed with one the 6th space 932 between valve piston 942, the other end of the second valve piston 942 and waste water control unit 93 is formed with one 7th space 933, second space 912 optionally connect the 6th space 932 or the 5th space 931 with waste water mouth 9121, and the 3rd Space 913 optionally connects the 6th space 932 or the 7th space 933 with waste water mouth 9131, and the wall in the 5th space 931 is set There is a wastewater outlet 9311, the wall in the 6th space 932 is provided with a waterwater entrance 9321, and the wall in the 7th space 933 is provided with one Wastewater outlet 9331；First and second valve piston 941,942 areas are identical and are provided with polarity and two big pistons 921,922 polarity phases The magnetic pole (such as S poles) of suction, and being movably disposed in the inner space of waste water control unit 93, and two valve pistons 941,942 with One body of rod is connected, and therefore two valve pistons 941,942 are jointly mobile；First entering water electromagnetic valve 951 and the first water solenoid valve 952 are respectively arranged on outside the water inlet and delivery port in the first space 911, the second entering water electromagnetic valve 961 and the second water solenoid valve 962 It is respectively arranged on outside the water inlet and delivery port in the 4th space 914；Two entering water electromagnetic valves 951,961 in parallel of high-pressure pump 97, and scene 2 The water inlet of water solenoid valve 952,962 parallel filter cores 98, and filter core 98 has a pure water outlet 981 and a wastewater outlet 982, Wastewater outlet 982 connects the waterwater entrance 9321 of waste water control unit 93.

Refer to shown in Fig. 8 and Fig. 9, in use, high-pressure pump 97 first beats seawater or fresh water from the first entering water electromagnetic valve 951 In the first space 911 for entering cylinder 91, squeezed into from the second entering water electromagnetic valve 961 by seawater or fresh water in the 4th space 914, this When, because the first big piston 921 is identical with the surface area of second largest piston 922, therefore the first big piston 921, second largest piston 922 exist Suffered lateral pressure is identical in cylinder 91, displacement can't be produced in cylinder 91, when seawater is via the first water solenoid valve 952 And second water solenoid valve 962 flow into filter core 98 after, the seawater or fresh water of sub-fraction about 25% to 30% become pure water by Pure water outlet 981 is discharged, and most of seawater or fresh water become high pressure waste water and flow into waste water control unit 93 by wastewater outlet 982 Waterwater entrance 9321 is simultaneously entered in the 6th space 932, then flows into the 3rd space 913 via the waste water mouth 9131 in the left side of cylinder 91 It is interior, pressure in cylinder 91 is produced change, and use and promote second largest piston 922 to move in the 4th space 914 to the left, meeting simultaneously Drive makes the first big piston 921, and second space 912 moves same distance to the left, and now, second largest piston 922 is then again by the The seawater or fresh water in four spaces 914 are promoted in filter core 98 from the second water solenoid valve 962, seawater in second space 912 or Fresh water can be flowed into the 5th space 931 via waste water mouth 9121, then flows out the 5th space 931 via wastewater outlet 9311, when the When one big piston 921 is moved to the left close to the first valve piston 941, because of the first big piston 921 and the polarity phase of the first valve piston 941 It is different produced by magnetic attraction, the first valve piston 941 can be attracted to the right the 5th space 931 move, utilize the attracting original of magnetic Reason reach two valve pistons 941,942 steering purpose, as shown in Figures 10 and 11, at the same can it is related by the second valve piston 942 to The direction displacement of the 6th space of right 932, now, the high pressure waste water flowed into by waterwater entrance 9321 can via the 6th space 932 and Waste water mouth 9121 is flowed into second space 912, now changes the pressure in cylinder 91 again so that the first big piston 921 is to the right The direction of first space 911 move, it is related cause second largest piston 922 to the direction of the 3rd space 913 movement, now, the first space Seawater or fresh water in 911 flow to filter core 98 via the first water solenoid valve 952, in situ in the low pressure sea in the 3rd space 913 Water or fresh water, the 7th space 933 is flowed into via waste water mouth 9131, then discharged via wastewater outlet 9331, and so on acted on, profit The pressure for the high pressure waste water discharged with the wastewater outlet 982 of filter core 98 can continue help and promote two big pistons 921,922, make the One space 911 and seawater or fresh water push-in filter core 98 in the 4th space 914, to reduce the power consumption of high-pressure pump 97.

However, the construction of the Portable water processing unit of foregoing prior art is complicated, such as cylinder 91 controls with waste water It is more difficult in the otch manufacturing technology that portion 93 connects, and the design of the valve piston 941,942 of waste water control unit 93 and two is in mechanism On it is also considerably complicated, therefore the Portable water processing unit of prior art is with high costs and be easily damaged and need to be improved.

The content of the invention

In view of the shortcomings that foregoing prior art and deficiency, the present invention provides a kind of water process energy saver, and it has The effect of energy-conservation, and simple structure and cost and fault rate can be reduced.

To reach above-mentioned goal of the invention, the technology used in the present invention means are a kind of water process energy saver of design, Wherein include：

One cylinder, inner wall surface thereof protrude one first stopper section and one second stopper section, first stopper section and this second Axially spaced-apart of the stopper section along the cylinder is set；The wall of the cylinder has extended radially through one first waterwater entrance and one second waste water Entrance, first waterwater entrance and second waterwater entrance are located between first stopper section and second stopper section；The cylinder Axial both ends be respectively first end and the second end, the first end of the cylinder is provided with one first water inlet and one first water outlet Mouthful, second end of the cylinder is provided with one second water inlet and one second delivery port；

One first piston, it can be movably between first stopper section in the cylinder and the first end；This One piston is provided with a magnetic element towards the one side of first stopper section；

One second piston, it movably can be located between second stopper section and second end in the cylinder；This Two pistons are provided with a magnetic element towards the one side of second stopper section；The second piston is connected with the first piston；

One displacement piece, it movably can be located between first stopper section and second stopper section in the cylinder, and Optionally it is resisted against first stopper section or second stopper section；The axially opposite sides face of the displacement piece is respectively equipped with a magnetic Property element, two magnetic element of the displacement piece respectively selectively magnetic element and the second piston with the first piston The magnetic element repel each other；The displacement piece optionally blocks first waterwater entrance or second waterwater entrance；

Four check-valves, its be connected to first water inlet of the cylinder, first delivery port, second water inlet and On second delivery port；

Two check-valves in first water inlet and second water inlet is connected in parallel in one pump, the delivery port of the pump；

Two non-return in first delivery port and second delivery port is connected in parallel in one filter core, the water inlet of the filter core Valve；The filter core has a pure water outlet and a wastewater outlet, and the wastewater outlet of the filter core is connected in parallel in the cylinder First waterwater entrance and second waterwater entrance.

The present invention is in use, the inner space of cylinder is separated into one first space and one the by first piston and second piston Two spaces, when pump promotes seawater or fresh water into the first space and second space from the first water inlet and the second water inlet respectively In, because of first piston and second piston because surface area is identical, the pressure by pump is identical, and first piston and second piston are in quiet State only, the seawater or fresh water for treating two space are exited into filter core from the first delivery port and the second delivery port respectively When, the high pressure waste water of filter core can be then returned in cylinder, it is assumed that flowed between displacement piece and second piston to promote second piston, then The movement of second piston just can reach the effect of energy-conservation；And when first piston is pulled to close to displacement piece by second piston, the The magnetic element of one piston and the magnetic element of displacement piece repel each other and promote displacement piece, therefore the high pressure waste water of filter core instead flows into First piston reversely is promoted between displacement piece and first piston, thus reaches the effect of steering and starts the sea in the first space Water or fresh water promote filter element filtering；Thus the high pressure waste water of filter core can be used to help promote two-piston to reduce pump about by the present invention 70% power consumption, and reach the purpose of steering by way of magnetic force repels each other, therefore unitary construction is more than prior art Magnetic valve, waste water control unit and valve piston come simple, therefore can effectively reduce cost and be not easy failure.

Preferably, described water process energy saver, wherein：The wall of the cylinder has extended radially through a wastewater outlet, should The wastewater outlet of cylinder is located between first stopper section and second stopper section；The axle of the displacement piece towards the first end A first passage is arranged with to side, the other end of the first passage radially passes the ring wall face of displacement piece；When the displacement piece is moved Move to when being resisted against first stopper section, the first passage is connected with the wastewater outlet of the cylinder, and the displacement piece blocks First waterwater entrance of the cylinder；The displacement piece is arranged with a second channel towards the axial sides at second end, and this second The other end of passage radially passes the ring wall face of displacement piece；, should when the displacement piece, which is moved to, is resisted against second stopper section Second channel is connected with the wastewater outlet of the cylinder, and the displacement piece blocks the second waterwater entrance of the cylinder.

Preferably, the ring wall face ring of described water process energy saver, the wherein displacement piece is around being arranged with one first ring Groove and one second annular groove, first annular groove and the second annular groove axially spaced-apart are set, and respectively with the first passage and this second Passage is connected；When the displacement piece, which is moved to, is resisted against first stopper section, the waste water of first annular groove and the cylinder goes out Mouth is connected；When the displacement piece, which is moved to, is resisted against second stopper section, the wastewater outlet of second annular groove and the cylinder It is connected.

Preferably, described water process energy saver, the wherein first piston and the second piston are connected with a body of rod, The body of rod can relatively movably run through the displacement piece.

Preferably, the magnetic element of described water process energy saver, the wherein first piston, the second piston should Magnetic element, two magnetic element of the displacement piece all can be relatively movably sheathed on outside the body of rod.

Preferably, first stopper section of described water process energy saver, the wherein cylinder forms in this around extension The internal face of cylinder, second stopper section of the cylinder form in the internal face of the cylinder around extension.

Preferably, described water process energy saver, the wherein filter core are counter-infiltration filter core.

Brief description of the drawings

Fig. 1 is the stereo appearance figure of the cylinder of the present invention.

Fig. 2 is the element exploded view of cylinder of the invention, two-piston and displacement piece.

Fig. 3 is that the end of cylinder of the invention, two-piston and displacement piece regards diagrammatic cross-section.

Fig. 4 is the forward sight diagrammatic cross-section of the first action of the present invention.

Fig. 5 is the forward sight diagrammatic cross-section of the second action of the present invention.

Fig. 6 is the forward sight diagrammatic cross-section of the 3rd action of the present invention.

Fig. 7 is the forward sight diagrammatic cross-section of the 4th action of the present invention.

Fig. 8 is the forward sight diagrammatic cross-section of the first action of prior art.

Fig. 9 is the forward sight diagrammatic cross-section of the second action of prior art.

Figure 10 is the forward sight diagrammatic cross-section of the 3rd action of prior art.

Figure 11 is the forward sight diagrammatic cross-section of the 4th action of prior art.

Description of reference numerals：

The stopper section of 10 cylinder 11 first

The waterwater entrance of 12 second stopper section 131 first

The wastewater outlet of 132 second waterwater entrance 133

The water inlet of 14 first end 141 first

The end of 142 first delivery port 15 second

The delivery port of 151 second water inlet 152 second

The magnetic element of 21 first piston 211

The magnetic element of 22 second piston 221

The displacement piece of 23 body of rod 30

The second channel of 31 first passage 32

The annular groove of 33 first annular groove 34 second

The magnetic element of 351 magnetic element 352

41 first check-valves

The check-valves of 42 second check-valve 43 the 3rd

The pump of 44 the 4th check-valves 50

The water inlet of 60 filter core 61

The wastewater outlet of 62 filtering water outlet 63

The second space of 71 first space 72

The space of 73 the 3rd space 74 the 4th

The first end of 91 cylinder 9111

The second space of 911 first space 912

The space of 9121 waste water mouth 913 the 3rd

The space of 9131 waste water mouth 914 the 4th

The midfeather of 9141 the second end 915

921 first big 922 second largest pistons of piston

The space of 93 waste water control unit 931 the 5th

The space of 932 the 6th space 933 the 7th

The valve piston of 941 first valve piston 942 second

The water solenoid valve of 951 first entering water electromagnetic valve 952 first

The water solenoid valve of 961 second entering water electromagnetic valve 962 second

The filter core of 97 high-pressure pump 98

The wastewater outlet of 981 pure water outlet 982.

Embodiment

With the following drawings and preferred embodiments of the present invention, the present invention is expanded on further to reach predetermined goal of the invention institute The technological means taken.

Refer to shown in Fig. 1, Fig. 2 and Fig. 4, water process energy saver of the invention includes a cylinder 10, one first work Fill in 21, one second piston 22, a displacement piece 30, the pump 50 of four check-valves 41,42,43,44, one and a filter core 60.

Refer to shown in Fig. 2 to Fig. 4, foregoing cylinder 10 is a cylinder, and the internal face of cylinder 10 protrudes around extension One first stopper section 11 and one second stopper section 12, the axially spaced-apart of the first stopper section 11 and the second stopper section 12 along cylinder 10 are set Put；The wall of cylinder 10 has extended radially through one first waterwater entrance 131, one second waterwater entrance 132 and a wastewater outlet 133, First waterwater entrance 131, the second waterwater entrance 132 and wastewater outlet 133 be located at the first stopper section 11 and the second stopper section 12 it Between, wastewater outlet 133 separately connects a pipeline so that waste water to be discharged；The axial both ends of cylinder 10 are respectively the end of first end 14 and second 15, the first end 14 of cylinder 10 is provided with one first water inlet 141 and one first delivery port 142, and the second end 15 of cylinder 10 is provided with One second water inlet 151 and one second delivery port 152；In the present embodiment, cylinder 10 further includes a stack shell and both ends Lid, but be not limited.

Foregoing first piston 21 is axially displaceably in cylinder 10, and be located at the first stopper section 11 and first end 14 Between, first piston 21 is provided with a magnetic element 211 towards the one side of the first stopper section 11.

Foregoing second piston 22 is axially displaceably in cylinder 10, and be located at the second stopper section 12 and the second end 15 Between, second piston 22 is provided with a magnetic element 221 towards the one side of the second stopper section 12；Second piston 22 and first piston 21 Be connected, and it is connected with a body of rod 23 in the present embodiment, and the magnetic element 211 and second piston of first piston 21 22 magnetic element 221 is surface area identical disc-shaped, and can be relatively movably sheathed on outside the body of rod 23, but not with this It is limited.

Foregoing displacement piece 30 is axially displaceably in cylinder 10, and be located at the first stopper section 11 and the second stopper section Between 12, and optionally it is resisted against the first stopper section 11 or the second stopper section 12；The axially opposite sides face of displacement piece 30 point Not She You a magnetic element 351,352, two magnetic element 351,352 of displacement piece 30 respectively selectively with first piston 21 Magnetic element 211 and the magnetic element 221 of second piston 22 repel each other；In the present embodiment, displacement piece 30 is movably arranged Outside the body of rod 23 between two-piston 21,22, and the magnetic element 351,352 of displacement piece 30 is disc-shaped, and relative can be moved It is sheathed on outside the body of rod 23, but is not limited dynamicly；In the present embodiment, first piston 21, second piston 22 and displacement piece 30 magnetic element 211,221,351,352 is all magnet.

Displacement piece 30 optionally makes the waterwater entrance 131 of wastewater outlet 133 and first or the second waterwater entrance of cylinder 10 132 are connected；In the present embodiment, the ring wall face ring of displacement piece 30 is around being arranged with one first annular groove 33 and one second annular groove 34, Two annular groove 33,34 axially spaced-aparts are set, and the axial sides of displacement piece 30 towards first end 14 are arranged with a first passage 31, the The other end of one passage 31 radially passes the ring wall face of displacement piece 30 and is connected with the first annular groove 33, displacement piece 30 towards second The axial sides at end 15 are arranged with a second channel 32, the other end of second channel 32 radially pass the ring wall face of displacement piece 30 and It is connected with the second annular groove 34；

Refer to shown in Fig. 4, when displacement piece 30 is moved to the first stopper section 11 for being resisted against cylinder 10, the first annular groove 33 It is connected with the wastewater outlet 133 of cylinder 10, and first passage 31 is then connected by first annular groove 33 with wastewater outlet 133 It is logical, and the ring wall face of displacement piece 30 blocks the first waterwater entrance 131 of cylinder 10, at this moment the second waterwater entrance 132 not by Block；

Refer to shown in Fig. 6, when displacement piece 30 is moved to the second stopper section 12 for being resisted against cylinder 10, the second annular groove 34 It is connected with the wastewater outlet 133 of cylinder 10, and second channel 32 is then connected by second annular groove 34 with wastewater outlet 133 It is logical, and the ring wall face of displacement piece 30 blocks the second waterwater entrance 132 of cylinder 10, at this moment the first waterwater entrance 131 not by Block.

Refer to shown in Fig. 4, four foregoing check-valves 41,42,43,44 are respectively that a first check-valve 41,1 second is stopped Return valve 42, one the 3rd check-valves 43 and one the 4th check-valves 44；What first check-valve 41 was connected to cylinder 10 with pipeline first enters The mouth of a river 141, and only allow current to flow into the first water inlet 141；What second check-valve 42 was connected to cylinder 10 with pipeline first goes out The mouth of a river 142, and only allow current to flow out the first delivery port 142；What the 3rd check-valves 43 was connected to cylinder 10 with pipeline second enters The mouth of a river 151, and only allow current to flow into the second water inlet 151；What the 4th check-valves 44 was connected to cylinder 10 with pipeline second goes out The mouth of a river 152, and only allow current to flow out the second delivery port 152.

The first check-valve 41 and second in the first water inlet 141 is connected in parallel with pipeline for the delivery port of foregoing pump 50 3rd check-valves 43 of water inlet 151；In the present embodiment, pump 50 is high-pressure pump.

Foregoing filter core 60 has a water inlet 61, a filtering water outlet 62 and a wastewater outlet 63, the water inlet of filter core 60 Mouth 61 is connected in parallel in the 4th check-valves of the delivery port 152 of second check-valve 42 and second of the first delivery port 142 with pipeline 44；The filtering water outlet 62 of filter core 60 separately connects a pipeline so that filter water to be discharged；The wastewater outlet 63 of filter core 60 is in parallel with pipeline Ground is connected to the first waterwater entrance 131 and the second waterwater entrance 132 of cylinder 10；In the present embodiment, filter core 60 is counter-infiltration Filter core, but be not limited.

The present invention is in use, the inner space of cylinder 10 is separated into by first piston 21, second piston 22 and displacement piece 30 One first space 71, a second space 72, one the 3rd space 73 and one the 4th space 74, the first space 71 be located at first end 14 with Between first piston 21, for second space 72 between the second end 15 and second piston 22, the 3rd space 73 is located at first piston Between 21 and displacement piece 30, the 4th space 74 is between second piston 22 and displacement piece 30；

For the first time in use, two-piston 21,22 is in static state, and assume that now displacement piece 30 is resisted against first and stop Stopper 11, pump 50 promote seawater or fresh water into the first space 71 and from the first water inlet 141 and the second water inlet 151 respectively In two spaces 72, and the seawater in two space 71,72 or fresh water are again respectively from the first delivery port 142 and the second delivery port 152 Flow out and be transported in filter core 60 and filtered, the pure water after filtering is discharged by filtering water outlet 62, and the high pressure of filter core 60 is given up Water flows to the 4th space 74 from the second waterwater entrance 132 of cylinder 10, and promotes second piston 22 towards the second end 15, by the The movement of two pistons 22 can reach the effect of energy-conservation；

In addition, during being moved by the first piston 21 of 22 related pulling of second piston towards the second end 15, the 3rd is empty Between 73 taper into, and the waste water in the 3rd space 73 then sequentially by the first passage 31 of displacement piece 30, the first annular groove 33 and Wastewater outlet 133 and discharge；No matter whether displacement piece 30 with respect to cylinder 10 turns to any angle, the first annular groove 33 of ring-type is equal First passage 31 and wastewater outlet 133 can be made to be connected；

Refer to shown in Fig. 5, when first piston 21 is pushed into close to displacement piece 30, the magnetic element of first piston 21 211 repel each other with the magnetic element 351 of displacement piece 30 and promote displacement piece 30 towards the second end 15, until displacement piece 30 is resisted against the Two stopper sections 12, at this moment the high pressure waste water of filter core 60 be changed to flow to the 3rd space 73 from the first waterwater entrance 131 of cylinder 10, please As shown in fig.6, and the high pressure waste water towards first end 14 promote first piston 21；Thus the present invention reaches the work(of steering Imitating and starting to change promotes filter core 60 to filter the waste water in the first space 71.

Refer to shown in Fig. 7, finally when second piston 22 is pushed into close to displacement piece 30, the magnetic of second piston 22 The magnetic element 352 of element 221 and displacement piece 30 repels each other and promotes displacement piece 30 towards first end 14, until displacement piece 30 against In the first stopper section 11, at this moment the high pressure waste water of filter core 60 is changed to flow to the 4th space from the second waterwater entrance 132 of cylinder 10 74, refer to shown in Fig. 4, and the high pressure waste water promotes second piston 22 towards the second end 15.

Thus the high pressure waste water of filter core 60 can be used to help promote two-piston 21,22 to reduce the consumption of pump 50 by the present invention Can, and the purpose of steering can be reached by way of magnetic force repels each other, therefore unitary construction simply can not only be saved about 70% energy, and can effectively reduce cost and be not easy failure.

In other embodiments, displacement piece can also be without first and second annular groove, and there was only first and second passage, only The relative angle of energy fixed displacement part and cylinder is wanted, and makes first and second passage in the position of the radially outlet in displacement piece ring wall face Put corresponding with the wastewater outlet of cylinder；

In addition, the unitary construction of displacement piece can also have other changes, as long as the first waste water of cylinder can be blocked optionally Entrance or the second waterwater entrance, and internal face of the cylinder in the 3rd space and the 4th space can set wastewater outlet respectively And check valve is for discharge waste water.

In other embodiments, the magnetic element of first piston, second piston and displacement piece all can not be disc-shaped and and The body of rod being not arranged between two-piston, the magnetic element can be changed to other shapes, and be directly arranged at the outside of the body of rod, Only displacement piece that can be equably with other elements is wanted to repel each other.

In other embodiments, the first stopper section and the second stopper section can all be not around the inwall that extension forms in cylinder Face, the first stopper section and the second stopper section can also include multiple projections respectively, and using the projection come against displacement piece etc. Deng, only will can limiting displacement part shift motion.

Described above is only presently preferred embodiments of the present invention, not does any formal limitation to the present invention, although this Invention is disclosed as above with preferred embodiment, but is not limited to the present invention, any those skilled in the art, is not being taken off In the range of technical solution of the present invention, when the technology contents using the disclosure above make a little change or are modified to equivalent change The equivalent embodiment of change, as long as being the content without departing from technical solution of the present invention, the technical spirit according to the present invention is real to more than Any simple modification, equivalent change and modification that example is made is applied, in the range of still falling within technical solution of the present invention.

Claims (9)

1. a kind of water process energy saver, it is characterised in that include：

One cylinder, inner wall surface thereof protrude one first stopper section and one second stopper section, first stopper section and second backstop Axially spaced-apart of the portion along the cylinder is set；The wall of the cylinder has extended radially through one first waterwater entrance and one second waste water enters Mouthful, first waterwater entrance and second waterwater entrance are located between first stopper section and second stopper section；The cylinder Axial both ends are respectively first end and the second end, and the first end of the cylinder is provided with one first water inlet and one first delivery port, Second end of the cylinder is provided with one second water inlet and one second delivery port；

One first piston, it can be movably between first stopper section in the cylinder and the first end；First work Fill in the one side towards first stopper section and be provided with a magnetic element；

One second piston, it movably can be located between second stopper section and second end in the cylinder；Second work Fill in the one side towards second stopper section and be provided with a magnetic element；The second piston is connected with the first piston；

One displacement piece, it movably can be located between first stopper section and second stopper section in the cylinder, and is selected It is resisted against first stopper section or second stopper section to property；The axially opposite sides face of the displacement piece is respectively equipped with magnetic member Part, two magnetic element of the displacement piece respectively selectively with the magnetic element of the first piston and the second piston should Magnetic element repels each other；The displacement piece optionally blocks first waterwater entrance or second waterwater entrance；

Four check-valves, its be connected to first water inlet of the cylinder, first delivery port, second water inlet and this On two delivery ports；

Two check-valves in first water inlet and second water inlet is connected in parallel in one pump, the delivery port of the pump；

Two check-valves in first delivery port and second delivery port is connected in parallel in one filter core, the water inlet of the filter core； The filter core has a pure water outlet and a wastewater outlet, the wastewater outlet of the filter core be connected in parallel in the cylinder this One waterwater entrance and second waterwater entrance.

2. water process energy saver according to claim 1, wherein：

The wall of the cylinder has extended radially through a wastewater outlet, the wastewater outlet of the cylinder be located at first stopper section and this Between two stopper sections；

The axial sides of the displacement piece towards the first end are arranged with a first passage, and the other end of the first passage is radially worn Go out the ring wall face of displacement piece；When the displacement piece, which is moved to, is resisted against first stopper section, the first passage should with the cylinder Wastewater outlet is connected, and the displacement piece blocks the first waterwater entrance of the cylinder；

The displacement piece is arranged with a second channel towards the axial sides at second end, and the other end of the second channel is radially worn Go out the ring wall face of displacement piece；When the displacement piece, which is moved to, is resisted against second stopper section, the second channel and the cylinder The wastewater outlet is connected, and the displacement piece blocks the second waterwater entrance of the cylinder.

3. water process energy saver according to claim 2, wherein, the ring wall face ring of the displacement piece is around being arranged with one One annular groove and one second annular groove, first annular groove and the second annular groove axially spaced-apart are set, and respectively with the first passage and should Second channel is connected；When the displacement piece, which is moved to, is resisted against first stopper section, this of first annular groove and the cylinder are useless Water out is connected；When the displacement piece, which is moved to, is resisted against second stopper section, the waste water of second annular groove and the cylinder Outlet is connected.

4. according to any described water process energy saver in claims 1 to 3, wherein, the first piston and the second piston It is connected with a body of rod, the body of rod can relatively movably run through the displacement piece.

5. water process energy saver according to claim 4, wherein, the magnetic element of the first piston, second work The magnetic element, two magnetic element of the displacement piece of plug all can be relatively movably sheathed on outside the body of rod.

6. according to any described water process energy saver in claims 1 to 3, wherein, the first stopper section ring of the cylinder The internal face of the cylinder is formed in around extension, second stopper section of the cylinder forms in the internal face of the cylinder around extension.

7. water process energy saver according to claim 5, wherein, first stopper section of the cylinder shapes around extension In the internal face of the cylinder, second stopper section of the cylinder forms in the internal face of the cylinder around extension.

8. according to any described water process energy saver in claims 1 to 3, wherein, the filter core is counter-infiltration filter core.

9. water process energy saver according to claim 7, wherein, the filter core is counter-infiltration filter core.