CN108915978A - It can be carried out the Water Wave Pump of sustainable water supply using cleaning nature - Google Patents

Abstract

The invention discloses the Water Wave Pumps that can be carried out sustainable water supply using cleaning nature, it includes the water absorber that liquid water is drawn for collecting the kinetic energy of water surface wave and potential energy as power, water absorber includes the collecting mechanism of the kinetic energy and potential energy for collecting water surface wave, for receiving the power of collecting mechanism collection and in this, as the water pumping mechanism of power extraction liquid water, collecting mechanism is hinged with water pumping mechanism and collecting mechanism and water pumping mechanism are coaxially disposed, collecting mechanism and water pumping mechanism are made using light material and can be suspended on the water surface, it is connected to below water pumping mechanism and the water surface；Above-mentioned water pumping mechanism includes suspension shell, is set to the intracorporal power transfer member for transmitting power of suspension shell, power conductive members, the air pressure adjustment component for adjusting air pressure, the pipe component that draws water, draining pipe component, and suspension shell and collecting mechanism are hinged.

Description

It can be carried out the Water Wave Pump of sustainable water supply using cleaning nature

Technical field

The present invention relates to field of water pumping, more particularly to can be carried out the Water Wave Pump of sustainable water supply using cleaning nature.

Background technique

In 18th century, the function and action principle of Water Wave Pump are totally different from conventional turbine pump one kind for Water Wave Pump invention Water pump, functionally Water Wave Pump is without inputting external work, but the original energy of water flow is redistributed, and obtains high pressure water Stream, from action principle, Water Wave Pump is to achieve the purpose that pressurization and shunting using the water hammer of unsteady water flow, existing Water Wave Pump there are problems that intermittent water, water flow does not continue, and water flow is smaller, and is easily damaged, and noise is larger, it is difficult to adapt to The demand of people.

Summary of the invention

To solve the deficiencies in the prior art, the object of the present invention is to provide one kind can be to cleaning natural energy resources（Ripples kinetic energy） The technology recycled, and can realize the extraction to liquid water, to realize irrigation, kinetic energy storage or other application, due to The present invention does not consume other energy, so its power-equipment for belonging to no pollution discharge, the protection of corresponding environment has important meaning Justice.

To realize the above-mentioned technical purpose, the technical solution adopted in the present invention is as follows：

It can be carried out the Water Wave Pump of sustainable water supply using cleaning nature comprising kinetic energy and potential energy for collecting water surface wave are made The water absorber of liquid water is drawn for power, water absorber includes the collection machine of the kinetic energy and potential energy for collecting water surface wave Structure, the power for receiving collecting mechanism collection and in this, as the water pumping mechanism of power extraction liquid water, collecting mechanism with draw water Mechanism is hinged and collecting mechanism and water pumping mechanism are coaxially disposed, and collecting mechanism and water pumping mechanism are made using light material and can be hanged On bubbling through the water column, it is connected to below water pumping mechanism and the water surface；

Above-mentioned water pumping mechanism include suspension shell, be set to suspension shell it is intracorporal for transmit power power transfer member, Power conductive members, the air pressure adjustment component for adjusting air pressure, the pipe component that draws water, draining pipe component, suspension shell and collection Mechanism is hinged；

Wherein, power transfer member and power conductive members receive the power of collecting mechanism transmitting and power are transferred to air pressure tune Component is saved, when collecting mechanism drives the movement of air pressure adjustment component by power conductive members, air pressure adjustment element cavity air pressure Reduce, extraneous liquid water enters air pressure adjustment element cavity by the pipe component that draws water under atmospheric pressure, when the machine of collection When structure drives the movement of air pressure adjustment component by power transfer member, air pressure adjustment element cavity air pressure increases, air pressure adjustment structure The liquid water of part inner cavity passes through draining pipe component discharge under the action of high pressure.

Above-mentioned suspension shell is hollow columnar cylinder and suspension shell is horizontally disposed, the inner cavity both ends setting of suspension shell There is the supporting element of inner hollow；

Above-mentioned air pressure adjustment component includes catheter, and the both ends of catheter are coaxially disposed and are led with suspension shell by supporting element The both ends of liquid pipe are located at the inner cavity of supporting element, and the outer cover of catheter is equipped with the slide cartridge that can be slided along catheter length direction, sliding Cylinder inner hollow, the outer cover of catheter is equipped with rubber piston and rubber piston is located at slide cartridge inner cavity, rubber piston in slide cartridge Chamber matching, rubber piston by slide cartridge inner cavity be divided into two chambers and be respectively be located at rubber piston on the left of left air pressure chamber, Right air pressure chamber on the right side of rubber piston, rubber piston block catheter lumen, and rubber piston divides catheter lumen For two chambers and it is respectively to be located at the left chamber on the left of rubber piston, the right chamber on the right side of rubber piston, is located at rubber It is provided with the inlet and outlet for the liquid water that circulates outside catheter on the left of glue piston, imports and exports close to rubber piston；

Above-mentioned power transfer member and power conductive members is connect with slide cartridge, when power conductive members drive slide cartridge along catheter When length direction slides, left air pressure chamber interior volume increases, and the air pressure of left air pressure chamber reduces, and extraneous liquid water is in atmosphere Left chamber is entered by the pipe component that draws water under the action of pressure and enters left air pressure chamber by inlet and outlet, when power transfer member band When dynamic slide cartridge is along catheter length direction reverse slide, left air pressure chamber interior volume reduces, and the air pressure of left air pressure chamber increases, The left indoor liquid water of atmospheric pressure cavity enters left chamber by inlet and outlet and passes through draining pipe component discharge.

Equally offer several inlet and outlet for being connected to right air pressure chamber in the right chamber of catheter, positioned at right chamber into It exports close to rubber piston and the inlet and outlet is arranged along the circumferencial direction uniform intervals of catheter, the inlet and outlet positioned at left chamber are set It is equipped with several and inlet and outlet is arranged along the circumferencial direction uniform intervals of catheter,

Wherein, the both ends port that catheter is located at supporting element inner cavity is all connected with connection and draws water pipe component and draining pipe component, when dynamic When power conductive members drive slide cartridge to slide along catheter length direction, left air pressure chamber interior volume increases, left air pressure chamber Air pressure reduces, and extraneous liquid water enters left chamber by the pipe component that draws water under atmospheric pressure and entered by inlet and outlet Left air pressure chamber, at the same time, right air pressure chamber interior volume reduce, and the air pressure of right air pressure chamber interior increases, right atmospheric pressure cavity The liquid water of chamber interior is discharged into the external world by inlet and outlet, catheter, draining pipe component, when power transfer member drives slide cartridge edge to lead When liquid pipe length direction reverse slide, left air pressure chamber interior volume reduces, and the air pressure of left air pressure chamber increases, left air pressure chamber Interior liquid water enters left chamber by inlet and outlet and passes through draining pipe component discharge, and at the same time, right air pressure chamber interior is empty Between increase, the air pressure of right air pressure chamber interior reduces, extraneous liquid water under atmospheric pressure by draw water pipe component into Enter right chamber and enters right air pressure chamber by inlet and outlet.

Above-mentioned power transfer member and power conductive members is connect with slide cartridge, and power transfer member and power conduction Component can drive slide cartridge unidirectionally to slide along the length direction of catheter, and power transfer member and power conductive members drive slide cartridge Glide direction is on the contrary, power transfer member and power conductive members are located at suspension housing cavity and are located at the side of slide cartridge.

Above-mentioned power transfer member includes two transmitting support plates parallel to each other, transmitting traction rope, transmits support plate Length direction it is parallel with the central axial direction of suspension shell and transmit support plate both ends connect with the end of suspension shell, Transmitting support plate is clamped with far from one end of collecting mechanism can be around the transmitting fixed pulley of own axis, above-mentioned transmitting traction One end of rope and slide cartridge close to one end periphery connection of collecting mechanism, transmitting traction rope the other end by transmitting fixed pulley to The direction of collecting mechanism extend and pass through threading hole and connect with collecting mechanism across suspension shell wall thickness.

Above-mentioned draining pipe component includes drainpipe, aqueduct, the outlet pipe for connecting discharge mechanism, drainpipe and is drawn Water pipe, outlet pipe are connected to by water draining tee pipe, and the one end of outlet pipe far from water draining tee pipe is across suspension shell wall thickness and outside Boundary connection, draining pipe component further include water draining tee check valve, draw water tee one-way valve, drainpipe far from water draining tee pipe one End connect connection with water draining tee check valve, and drainpipe passes through the one end of water draining tee check valve and catheter far from collecting mechanism Connection is connected, and the one end of aqueduct far from water draining tee pipe connect connection with the tee one-way valve that draws water, and aqueduct is by drawing water three Logical check valve and catheter are connected close to one end of collecting mechanism to be connected, and the liquid water in catheter passes through water draining tee check valve Tee one-way valve unidirectionally flows into drainpipe and diversion tube cavity with drawing water；

The above-mentioned pipe component that draws water includes drainage tube, connecting tube, extends to water surface drinking-water pipe below, drainage tube and connecting tube, Drinking-water pipe is connected to by pumping water three-way pipe, and drinking-water pipe passes through suspension shell wall thickness far from one end of pumping water three-way pipe and connects with liquid water Logical, the one end of drainage tube far from pumping water three-way pipe connect connection with water draining tee check valve, and drainage tube is unidirectional by water draining tee Valve and catheter are connected far from one end of collecting mechanism to be connected, and the one end of connecting tube far from pumping water three-way pipe and threeway of drawing water are unidirectional Valve connection is connected, and connecting tube by draw water tee one-way valve and catheter, close to one end of collecting mechanism, connect by connection, drainage tube Catheter lumen is unidirectionally flowed by water draining tee check valve and the tee one-way valve that draws water with the liquid water in connecting tube.

The beneficial effect of the present invention compared with prior art is that present invention employs the potential energy changes of suspension bucket induction ripples Change to reach the collection of kinetic energy, and the kinetic energy of collection can be transmitted to air pressure adjustment component to be converted into the transformation of pressure and adjust, Final to realize the purpose pumped, relative to existing ripples kinetic energy collecting mode, the present invention has the efficient conversion of kinetic energy, and The continuity of draining can be achieved.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure does simple introduction, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not construed as pair The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings.

Fig. 1 is stationary state structural schematic diagram of the invention.

Fig. 2 is working state structure schematic diagram of the invention.

Fig. 3 is the structural schematic diagram that water absorber of the invention is connect with water plug.

Fig. 4 is water absorber structural schematic diagram of the invention.

Fig. 5 is the cross-sectional view of water absorber of the invention.

Fig. 6 is the cross-sectional view of water absorber of the invention.

Fig. 7 is water absorber partial structural diagram of the invention.

Fig. 8 is water absorber partial structural diagram of the invention.

Fig. 9 is the structural schematic diagram that draining pipe component of the invention is connect with the pipe component that draws water.

Figure 10 is the structural schematic diagram of water draining tee check valve of the invention.

Figure 11 is the cross-sectional view of water draining tee check valve of the invention.

Figure 12 is the structural schematic diagram of air pressure adjustment component of the invention.

Figure 13 is the cross-sectional view of air pressure adjustment component of the invention.

Figure 14 is power transfer member structural schematic diagram of the invention.

Figure 15 is power transfer member structural schematic diagram of the invention.

Figure 16 is power transfer member structural schematic diagram of the invention.

Figure 17 is antifriction element structure schematic diagram of the invention.

Figure 18 is antifriction element structure schematic diagram of the invention.

Figure 19 is power conductive members structural schematic diagram of the invention.

Figure 20 is power conductive members structural schematic diagram of the invention.

It is denoted as in figure：

100, water absorber；110, water pumping mechanism；1110, suspension shell；1120, power transfer member；1121, transmitting support Plate；1122, fixed pulley is transmitted；1123, traction rope is transmitted；1124, movable pulley is transmitted；1125, compressed spring；1126, antifriction Component；1126a, fastening plates；1126b, grip block；1126c, row's silk guide wheel；1126d, through hole；1127, rope is transmitted； 1128, corrugated flexible hose is transmitted；1130, air pressure adjustment component；1131, catheter；1132, slide bar；1133, sliding sleeve is conducted；1134, Slide cartridge；1135, sliding sleeve is transmitted；1136, rubber piston；1137, it imports and exports；1140, pipe component is drained；1141, aqueduct； 1142, outlet pipe；1143, drainpipe；1144, water draining tee check valve；1144a, horizontal tube；1144b, vertical tube；1144c, Roll left pearl valve；1144d, helical spring；1144e, right ball valve；1144f, limit spring；1145, draw water tee one-way valve； 1150, draw water pipe component；1151, connecting tube；1152, drainage tube；1153, drinking-water pipe；1154, filter；1160, power conducts Component；1161, traction rope is conducted；120, collecting mechanism；121, suspension bucket；122, ball；130, retaining mechanism；131, it connects Rope；132, clump weight；

200, water plug.

Specific embodiment

In order to which objects and advantages of the present invention are more clearly understood, the present invention is carried out specifically with reference to embodiments It is bright.It should be appreciated that following text is only used to describe one or more of specific embodiments of the invention, not to the present invention The protection scope specifically requested carries out considered critical.

As shown in Figs. 1-5, it can be carried out the Water Wave Pump of sustainable water supply using cleaning nature, including for collecting water surface wave Kinetic energy and potential energy as power absorption liquid water water absorber 100, water absorber 100 includes for collecting water surface wave The collecting mechanism 120 of kinetic energy and potential energy, for receive collecting mechanism 120 collection power and in this, as power extraction liquid water Water pumping mechanism 110, collecting mechanism 120 and water pumping mechanism 110 are hinged and collecting mechanism 120 and water pumping mechanism 110 are coaxially disposed, and receive Collecting mechanism 120 and water pumping mechanism 110 are made using light material and can be suspended on the water surface, below water pumping mechanism 110 and the water surface Connection, in use, collecting mechanism 120 and water pumping mechanism 110 are placed on the water surface, the water surface rises and falls under the action of the forces of the wind and band Dynamic collecting mechanism 120 rises and falls, and collecting mechanism 120 collects power and power is transferred to water pumping mechanism 110, in water pumping mechanism 110 Air pressure occurs to convert and extracts liquid water.

For the present invention by collecting the power of the potential energy and kinetic energy of water surface wave as extraction liquid water, water energy is renewable energy Source, can recycling year after year, and low in cost using water energy, gain quick return for investment, and water energy does not have compared to fossil fuel Pollution is a kind of clean energy, and saves other energy, is conducive to the sustainable use of the energy.

As shown in figs 6-8, above-mentioned water pumping mechanism 110 includes suspension shell 1110, is set in suspension shell 1110 For transmitting power transfer member 1120, power conductive members 1160, the air pressure adjustment component for adjusting air pressure of power 1130, draw water pipe component 1150, draining pipe component 1140, and suspension shell 1110 and collecting mechanism 120 are hinged, power transfer member 1120 and power conductive members 1160 receive collecting mechanism 120 transmit power and power is transferred to air pressure adjustment component 1130, when collecting mechanism 120 drives air pressure adjustment component 1130 to move by power conductive members 1160, air pressure adjustment component 1130 inner cavity air pressures reduce, and extraneous liquid water enters air pressure adjustment structure by the pipe component 1150 that draws water under atmospheric pressure 1130 inner cavity of part, when collecting mechanism 120 drives air pressure adjustment component 1130 to move by power transfer member 1120, air pressure tune It saves 1130 inner cavity air pressure of component to increase, the liquid water of 1130 inner cavity of air pressure adjustment component passes through drainpipe structure under the action of high pressure Part 1140 is discharged.

Above-mentioned suspension shell 1110 is hollow columnar cylinder and suspension shell 1110 is horizontally disposed, suspension shell 1110 Inner cavity both ends are provided with the supporting element of inner hollow.

As illustrated by figs. 12-13, above-mentioned air pressure adjustment component 1130 includes catheter 1131, and the both ends of catheter 1131 are logical The both ends for crossing supporting element and the coaxial arrangement of suspension shell 1110 and catheter 1131 are located at the inner cavity of supporting element, catheter 1131 Outer cover be equipped with can along 1131 length direction of catheter slide slide cartridge 1134,1134 inner hollow of slide cartridge, catheter 1131 Outer cover is equipped with rubber piston 1136 and rubber piston 1136 and is located at 1134 inner cavity of slide cartridge, rubber piston 1136 in slide cartridge 1134 1134 inner cavity of slide cartridge is divided into two chambers and is respectively to be located at 1136 left side of rubber piston by chamber matching, rubber piston 1136 Left air pressure chamber, the right air pressure chamber positioned at 1136 right side of rubber piston, rubber piston 1136 block 1131 inner cavity of catheter, 1131 inner cavity of catheter is divided into two chambers and is respectively the left chamber for being located at 1136 left side of rubber piston by rubber piston 1136 Room, the right chamber positioned at 1136 right side of rubber piston, are arranged useful outside the catheter 1131 in 1136 left side of rubber piston In the inlet and outlet 1137 of circulation liquid water, inlet and outlet 1137 are close to rubber piston 1136, in order to increase liquid water in the unit time Flow, it is preferred that inlet and outlet 1137 be provided with several and inlet and outlet 1137 along the circumferencial direction of catheter 1131 it is uniform between Every arrangement, above-mentioned power transfer member 1120 and power conductive members 1160 are connect with slide cartridge 1134, when power conductive members When 1160 drive slide cartridges 1134 are slided along 1131 length direction of catheter, left air pressure chamber interior volume increases, left air pressure chamber Air pressure reduce, extraneous liquid water is entered by the pipe component 1150 that draws water under atmospheric pressure left chamber and passes through disengaging Mouth 1137 enters left air pressure chamber, when power transfer member 1120 drives slide cartridge 1134 reversely to slide along 1131 length direction of catheter When dynamic, left air pressure chamber interior volume reduces, and the air pressure of left air pressure chamber increases, and the left indoor liquid water of atmospheric pressure cavity passes through disengaging Mouth 1137 enters left chamber and is discharged by draining pipe component 1140.

In order to increase the flow to draw water in the unit time, efficiency of drawing water is improved, is equally opened in the right chamber of catheter 1131 The inlet and outlet 1137 of right air pressure chamber are connected to equipped with several, positioned at right chamber inlet and outlet 1137 close to rubber piston 1136 and The inlet and outlet 1137 are arranged along the circumferencial direction uniform intervals of catheter 1131, and the unit time can be improved by above-mentioned scheme Pump-out, the both ends port that catheter 1131 is located at supporting element inner cavity be all connected with connection draw water pipe component 1150 and draining pipe component 1140, when power conductive members 1160 drive slide cartridge 1134 to slide along 1131 length direction of catheter, left air pressure chamber interior Space increases, and the air pressure of left air pressure chamber reduces, and extraneous liquid water passes through the pipe component 1150 that draws water under atmospheric pressure Enter left air pressure chamber into left chamber and by inlet and outlet 1137, at the same time, right air pressure chamber interior volume reduces, right gas The air pressure of chamber interior is pressed to increase, the liquid water of right air pressure chamber interior passes through inlet and outlet 1137, catheter 1131, drainpipe structure Part 1140 is discharged into the external world, when power transfer member 1120 drives slide cartridge 1134 along 1131 length direction reverse slide of catheter, Left air pressure chamber interior volume reduces, and the air pressure of left air pressure chamber increases, and the left indoor liquid water of atmospheric pressure cavity passes through inlet and outlet 1137 enter left chamber and are discharged by draining pipe component 1140, and at the same time, right air pressure chamber interior volume increases, right air pressure The air pressure of chamber interior reduces, and extraneous liquid water enters right chamber simultaneously by the pipe component 1150 that draws water under atmospheric pressure Enter right air pressure chamber by inlet and outlet 1137.

Above-mentioned power transfer member 1120 and power conductive members 1160 is connect with slide cartridge 1134, and power transmits structure Part 1120 and power conductive members 1160 can drive slide cartridge 1134 unidirectionally to slide along the length direction of catheter 1131, power transmitting Component 1120 and power conductive members 1160 drive the glide direction of slide cartridge 1134 on the contrary, power transfer member 1120 and power pass Component 1160 is led to be located at 1110 inner cavity of suspension shell and be located at the side of slide cartridge 1134.

As illustrated in figures 14-16, above-mentioned power transfer member 1120 include two transmitting support plates 1121 parallel to each other, Traction rope 1123 is transmitted, the length direction of transmitting support plate 1121 is parallel with the central axial direction of suspension shell 1110 and transmits The both ends of support plate 1121 are connect with the end of suspension shell 1110, transmit the one end of support plate 1121 far from collecting mechanism 120 Being clamped with can lean on around the transmitting fixed pulley 1122 of own axis, one end of above-mentioned transmitting traction rope 1123 with slide cartridge 1134 One end periphery connection of nearly collecting mechanism 120, the other end of transmitting traction rope 1123 pass through transmitting fixed pulley 1122 towards receipts The direction of collecting mechanism 120, which extends and passes through threading hole, to be connect across 1110 wall thickness of suspension shell with collecting mechanism 120, in order to prevent Extraneous liquid water enters 1110 inner cavity of suspension shell by the junction of transmitting traction rope 1123 and suspension shell 1110, suspends Transmitting corrugated flexible hose 1128 is provided between shell 1110 and collecting mechanism 120, transmitting 1128 coaxial sleeve of corrugated flexible hose, which is set to, to be passed The outside of traction rope 1123 is passed, transmitting corrugated flexible hose 1128 seals, and avoids extraneous liquid water and enters suspension shell 1110 inner cavities make suspension shell 1110 sink, and collecting mechanism 120 drives slide cartridge 1134 along catheter by transmitting traction rope 1123 1131 length direction is slided away from the direction of collecting mechanism 120.

In order to expand collecting mechanism 120 to the function and effect of slide cartridge 1134, power transfer member 1120 is arranged to multiplication knot Structure, two transmitting support plates 1121 offer transmitting sliding slot relatively close to one end of collecting mechanism 120, transmit the extension side of sliding slot To with transmitting the length direction of support plate 1121 it is parallel, two transmitting sliding slots between be clamped with can along transmitting sliding slot extending direction The transmitting movable pulley 1124 of sliding, transmitting movable pulley 1124 can further include passing around own axis, power transfer member 1120 Rope 1127 is passed, the other end that one end of transmitting rope 1127 connect with collecting mechanism 120, transmitted rope 1127 passes through The wall thickness that threading hole passes through suspension shell 1110 is flexibly connected by connector with transmitting movable pulley 1124, and corrugated flexible hose is transmitted 1128 are sheathed on the outside of transmitting rope 1127, and one end of above-mentioned transmitting traction rope 1123 and slide cartridge 1134 are close to collection machine The periphery connection of structure 120, the other end of transmitting traction rope 1123 are last by transmitting fixed pulley 1122, transmitting movable pulley 1124 It is fixedly connected on transmitting fixed pulley 1122 and transmits in the transmitting fixed link between movable pulley 1124, transmitting fixed link is fixedly connected In in transmitting support plate 1121, when collecting mechanism 120 pulls transmitting rope 1127, transmitting rope 1127 drives transmitting dynamic Pulley 1124 is slided along the extending direction of transmitting sliding slot towards the direction of collecting mechanism 120, at the same time, transmits movable pulley 1124 Around own axis and transmitting traction rope 1123 is pulled to move, transmitting traction rope 1123 drives slide cartridge 1134 along catheter 1131 Length direction away from collecting mechanism 120 direction slide, due to transmit movable pulley 1124 effect, transmit traction rope 1123 move distance is twice for transmitting 1127 move distance of rope, is applied in 120 pairs of transmitting ropes 1127 of collecting mechanism When adding identical active force, the traction slide cartridge 1134 that transmitting traction rope 1123 can be more efficient is slided.

As shown in figs. 17-18, it in order to extend the service life for transmitting rope 1127, avoids transmitting rope 1127 and hangs Floating shell 1110 is broken when rubbing, and suspension shell 1110 is provided with antifriction component close to one end of collecting mechanism 120 1126, antifriction component 1126 includes the fastening being fastenedly connected in suspension shell 1110 outside one end of collecting mechanism 120 Plate 1126a, fastening plates 1126a offer the through hole that for transmit rope 1127 passes through coaxial with above-mentioned threading hole Grip block that is a pair of parallel to each other and extending towards the direction of collecting mechanism 120 is provided on 1126d, fastening plates 1126a It can be led around the row silk guide wheel 1126c of own axis, two row's silks there are two being clamped between 1126b, two grip block 1126b It is formed between wheel 1126c matched for clamping the grasping part of transmitting rope 1127, transmitting lifting with through hole 1126d One end of rope 1127 connect with collecting mechanism 120, transmit the other end of rope 1127 across grasping part, through hole 1126d, Threading hole is flexibly connected with transmitting movable pulley 1124.

In order to avoid collecting mechanism 120 is when pulling transmitting rope 1127, transmitting rope 1127 drives the dynamic cunning of transmitting Wheel 1124 moves to transmitting sliding slot close to one end of collecting mechanism 120, and being transmitted when rope 1127 pulls at this time will appear It transmits rope 1127 to be broken, in order to avoid above-mentioned situation occurs, transmitting rope 1127 is close to transmitting movable pulley 1124 One end is provided with external step, transmits the outside of rope 1127 and is arranged with compression bullet between external step and threading hole Spring 1125, when transmitting movable pulley 1124 slides under the drive for transmitting rope 1127 towards the direction of collecting mechanism 120, when Movable pulley 1124 is transmitted close to when transmitting sliding slot close to one end of collecting mechanism 120, external step squeezes compressed spring 1125, pressure One end of contracting spring 1125 contradicts suspension shell 1110, the other end of compressed spring 1125 contradicts external step, compressed spring 1125 are squeezed contraction and put aside elastic potential energy, and the elastic force of compressed spring 1125 pushes external step to deviate collecting mechanism 120, Compressed spring 1125 works as a buffer, and avoids transmitting rope 1127 and is broken.

As shown in Figure 19-20, above-mentioned power transfer member 1120 includes amplification component a, transmitting fixed pulley 1122, transmitting Traction rope 1123, the amplification component a include transmitting movable pulley 1124, compressed spring 1125, antifriction component 1126, transmitting Rope 1127, transmitting corrugated flexible hose 1128, a pair of of transmitting support plate 1121, above-mentioned power conductive members 1160 include amplification Component b, conduction traction rope 1161, above-mentioned amplification component a are identical as the amplification shape and structure of component b and in suspension shell Distribution is gone to upper and lower in 1110, one end of above-mentioned conduction traction rope 1161 is fixedly connected on slide cartridge 1134 far from collecting mechanism 120 One end periphery connection, conduction traction rope 1161 the other end by amplification component b on movable pulley and by amplification component b On connecting rod be fixedly connected on amplification component b on the one end of transmitting support plate far from collecting mechanism 120 on.

In order to avoid power transfer member 1120 and power conductive members 1160 when driving slide cartridge 1134 to slide slide cartridge 1134 around own axis, reduces working efficiency, be additionally provided on air pressure adjustment component 1130 for prevent slide cartridge 1134 around The firm component of own axis, firm component include a pair of of the slide bar 1132 for being respectively arranged at 1134 side of slide cartridge, slide bar 1132 length direction is parallel with the central axial direction of slide cartridge 1134, the both ends of slide bar 1132 and the fixed company of above-mentioned supporting element It connects, two slide bars 1132 are symmetrical about the central axis of slide cartridge 1134, and the outer cover of slide cartridge 1134 is equipped with close to collecting mechanism 120 Transmitting sliding sleeve 1135, the conduction sliding sleeve 1133 far from collecting mechanism 120, transmitting sliding sleeve 1135 and conduct sliding sleeve 1133 and slide cartridge 1134 are fixedly connected, and transmit sliding sleeve 1135 and conduction sliding sleeve 1133 is slidably connected with a pair of of slide bar 1132, transmit traction rope 1123 connect with transmitting sliding sleeve 1135, and conduction traction rope 1161 is connect with conduction sliding sleeve 1133, and transmitting sliding sleeve 1135 and conduction are slided Set 1133 can limit slide cartridge 1134 around own axis with the cooperation of slide bar 1132, improve work efficiency.

As shown in figs. 9-11, above-mentioned draining pipe component 1140 includes drainpipe 1143, aqueduct 1141, for connecting out The outlet pipe 1142 of water dispenser structure, drainpipe 1143 and aqueduct 1141, outlet pipe 1142 are connected to by water draining tee pipe, outlet pipe 1142 one end far from water draining tee pipe pass through 1110 wall thickness of suspension shell and are in communication with the outside, and draining pipe component 1140 further includes row Water tee one-way valve 1144, draw water tee one-way valve 1145, drainpipe 1143 one end and water draining tee far from water draining tee pipe The connection of check valve 1144 is connected, and drainpipe 1143 is by water draining tee check valve 1144 and catheter 1131 far from collecting mechanism 120 one end, which connects, to be connected, and the one end of aqueduct 1141 far from water draining tee pipe connect connection with the tee one-way valve 1145 that draws water, Aqueduct 1141 connect connection close to one end of collecting mechanism 120 with catheter 1131 by drawing water tee one-way valve 1145, leads Liquid water in liquid pipe 1131 unidirectionally flows into drainpipe by water draining tee check valve 1144 and the tee one-way valve 1145 that draws water 1143 and 1141 inner cavity of aqueduct.

The above-mentioned pipe component 1150 that draws water includes drainage tube 1152, connecting tube 1151, extends to water surface drinking-water pipe below 1153, drainage tube 1152 is connected to connecting tube 1151, drinking-water pipe 1153 by pumping water three-way pipe, and drinking-water pipe 1153 is far from drawing water three One end of siphunculus passes through 1110 wall thickness of suspension shell and liquid water is connected, drainage tube 1152 one end and row far from pumping water three-way pipe The connection of water tee one-way valve 1144 is connected, and drainage tube 1152 is collected by the way that water draining tee check valve 1144 and catheter 1131 are separate One end of mechanism 120, which connects, to be connected, and the one end of connecting tube 1151 far from pumping water three-way pipe is connect with the tee one-way valve 1145 that draws water It connects, connecting tube 1151 is connect close to one end of collecting mechanism 120 with catheter 1131 by the tee one-way valve 1145 that draws water and connect Logical, the liquid water in drainage tube 1152 and connecting tube 1151 passes through water draining tee check valve 1144 and the tee one-way valve 1145 that draws water Unidirectional to flow into 1131 inner cavity of catheter, the impurity in extraneous liquid water enters in the present invention in order to prevent, causes the present invention stifled Plug, drinking-water pipe 1153 is provided with filter 1154 far from one end of pumping water three-way pipe, can will be in liquid water by filter 1154 Impurity intercept, avoid the present invention there is a situation where block.

More specifically, the planform of above-mentioned water draining tee check valve 1144 and the tee one-way valve 1145 that draws water is complete Unanimously, water draining tee check valve 1144 includes horizontal tube 1144a, vertical tube 1144b, vertical tube 1144b and horizontal tube 1144a's Central axial direction of the central axial direction of middle position connection and vertical tube 1144b perpendicular to horizontal tube 1144a, vertical tube Horizontal tube 1144a is divided into two parts and respectively left section of horizontal tube, right section of horizontal tube, left section of horizontal tube and drainage by 1144b The connection of pipe 1152 is connected, and right section of horizontal tube connect connection with drainpipe 1143, and vertical tube 1144b connect with catheter 1131 and connects Logical, left section of horizontal tube coaxial setting is there are two step built in left section and is respectively built in left section of separate right section of horizontal tube Step a, it closes on step b built in left section of right section of horizontal tube, is provided with spiral shell between step b built in step a built in left section and left section Spring 1144d is revolved, is provided with the pearl valve 1144c that rolls left, helical spring 1144d between step a built in helical spring 1144d and left section One end contradict step b built in left section, the other end conflict of helical spring 1144d is rolled left pearl valve 1144c, helical spring 1144d The elastic force promotion pearl valve 1144c that rolls left contradict step a built in left section and the making pearl valve 1144c that rolls left and block built in left section in step a The recirculation hole formed at the heart, right section of horizontal tube coaxial setting is there are two step built in right section and is respectively close to left section of water Step a built in right section of flat pipe, step b built in right section far from left section of horizontal tube, step built in step a built in right section and right section It is provided with limit spring 1144f between b, is provided with right ball valve 1144e between step a built in limit spring 1144f and right section, One end of limit spring 1144f contradicts step b built in right section, the other end of limit spring 1144f contradicts right ball valve 1144e simultaneously Right ball valve 1144e is set to block the discharge orifice formed at the center step a built in right section；Extraneous liquid water pushes the pearl valve that rolls left 1144c extrusion spiral spring 1144d, helical spring 1144d are squeezed contraction and put aside elastic potential energy, and roll left pearl valve 1144c It is separated with recirculation hole, extraneous liquid water unidirectionally flows into the inner cavity vertical tube 1144b by recirculation hole, the inner cavity vertical tube 1144b Liquid water pushes right ball valve 1144e to squeeze limit spring 1144f, and limit spring 1144f is squeezed contraction and puts aside elasticity Potential energy, right ball valve 1144e unidirectionally flow into the external world by discharge orifice far from discharge orifice, the liquid water of the inner cavity vertical tube 1144b.

As seen in figs. 5-6, above-mentioned collecting mechanism 120 includes and the coaxial hinged suspension bucket 121 of suspension shell 1110, institute Central axial direction of the hinged shaft core line direction stated perpendicular to suspension shell 1110, the transmitting lifting of above-mentioned amplification component a Rope 1127 and the transmitting rope for amplifying component b are connect with suspension bucket 121 close to one end of suspension shell 1110, suspension bucket 121 inner hollow, suspension bucket 121 can drive power transfer member 1120 and power conductive members 1160 to move and draw when shaking Dynamic slide cartridge 1134 moves, and since above-mentioned articulated shaft limits, the plane where the vibrating locus of suspension bucket 121 is perpendicular to articulated shaft Core wire direction and along the vertical direction.

In order to reinforce the floating effect of suspension bucket 121,121 inner cavity of suspension bucket is provided with ball 122, when suspension bucket 121 is remote When one end from suspension shell 1110 is lifted under the action of water surface wave, i.e. the crest location that is located at ripples of suspension bucket 121 hangs Keg float 121 drives slide cartridge 1134 along 1131 length direction of catheter towards close to suspension bucket 121 by power conductive members 1160 Direction sliding, at this time ball 122 under the effect of gravity towards suspension bucket 121 close to suspension shell 1110 one end roll It is dynamic, when water surface wave stops applying active force to suspension bucket 121, i.e. the wave trough position that is located at ripples of suspension bucket 121, suspension bucket 121 one end far from suspension shell 1110 move straight down under the effect of gravity, and ball 122 is towards suspension bucket at this time 121 one end far from suspension shell 1110 roll, effect of the one end of suspension bucket 121 far from suspension shell 1110 in ball 122 Under continue to move downward, suspension bucket 121 by power transfer member 1120 drive slide cartridge 1134 along 1131 length direction of catheter Away from the direction sliding of suspension bucket 121.

As seen in figs. 5-6, reception wave is made when the face as where when the motion profile of suspension bucket 121 is perpendicular to horizontal plane Efficiency highest firmly, so in order to improve utilization efficiency, water absorber 100 further includes being used for what suspension shell 1110 was connect The retaining mechanism 130 of firm water pumping mechanism 110, retaining mechanism 130 include connecting rope 131, clump weight 132, and the one of connecting rope 131 End is connect with suspension shell 1110, one end of the separate suspension shell 1110 of connecting rope 131 is connect with clump weight 132, works as counterweight When block 132 is placed in water, connecting rope 131 is stretched under the action of 132 gravity of clump weight, suspension shell 1110 be kept fixed and Suspension shell 1110 is avoided under the influence of the waves around own axis, at this time where the motion profile of suspension bucket 121 Face receives the efficiency highest of wave force, improves efficiency of drawing water perpendicular to horizontal plane, suspension bucket 121.

In order to further increase the pump-out in the unit time, the present invention is additionally provided with water plug 200, water plug 200 is completely the same with the planform of water absorber 100, and on the suspension shell on water plug 200 and water absorber 100 Suspension shell 1110 is hinged, and the hinged shaft core line direction connecting with water plug 200 and water absorber 100 is perpendicular to suspension bucket Plane where 121 motion profile, water plug 200 and water absorber 100 can turn around the articulated shaft circumferencial direction of its connection It is dynamic.

In order to save material and space, the water outlet of 100 upper water-out pipe 1142 of water absorber and 200 upper water-out of water plug Outlet tube is merged into the water outlet of pipe, and liquid water is discharged by outlet tube, in order to further decrease occupied space, avoids influencing to take out Water efficiency, the articulated shaft between water absorber 100 and water plug 200 are arranged to hollow both ends open cylindrical barrel body, out liquid Articulated shaft inner cavity of the pipe across water absorber 100 and water plug 200, further reduces volume.

When work, when the one end of suspension bucket 121 far from suspension shell 1110 moves downward under the action of water surface wave, rolling Pearl 122 rolls towards the direction for deviateing suspension shell 1110, articulated shaft circumferencial direction rotation and band of the suspension bucket 121 along its connection Transmitting rope 1127 on dynamic amplification component a moves, and amplifies the transmitting rope 1127 on component a and pulls on amplification component a Transmitting movable pulley 1124 along transmitting sliding slot guide direction towards close to suspension bucket 121 direction slide, amplify component a on It is on amplification component a that transmitting movable pulley 1124, which drives the movement of transmitting traction rope 1123 and transmits the move distance of traction rope 1123, Twice for transmitting 1127 move distance of rope, transmitting traction rope 1123 drive transmitting sliding sleeve 1135 along the extension side of slide bar 1132 To away from suspension bucket 121 direction sliding, transmitting sliding sleeve 1135 drive slide cartridge 1134 along 1131 length direction of catheter to The direction far from suspension bucket 121 slide, left air pressure chamber interior volume reduces, and the air pressure of left air pressure chamber increases, left air pressure The indoor liquid water of chamber enters 1131 left chamber of catheter by inlet and outlet 1137, and liquid water pushes the tee one-way valve 1145 that draws water On right ball valve squeeze the limit spring drawn water on tee one-way valve 1145, the limit spring drawn water on tee one-way valve 1145 It is squeezed contraction and puts aside elastic potential energy, the right ball valve to draw water on tee one-way valve 1145 is far from the tee one-way valve that draws water Discharge orifice on 1145, liquid water enter 1141 inner cavity of aqueduct by the discharge orifice on tee one-way valve 1145 of drawing water and pass through Outlet pipe 1142 is discharged, the elastic potential energy release of the limit spring savings to be drawn water on tee one-way valve 1145 at this time, threeway of drawing water The elastic force of limit spring on check valve 1145 pushes the stifled threeway list that draws water of the right ball jam pot cover to draw water on tee one-way valve 1145 Discharge orifice on valve 1145.

At the same time, right air pressure chamber interior volume increases, and the air pressure of right air pressure chamber interior reduces, extraneous liquid water Enter drinking-water pipe 1153 by filter 1154 under atmospheric pressure, liquid water enters drainage tube by drinking-water pipe 1153 1152, and liquid water promotion is made to roll left pearl valve 1144c far from recirculation hole, liquid water pushes the pearl valve 1144c extrusion spiral that rolls left Spring 1144d, helical spring 1144d are squeezed contraction and put aside elastic potential energy, and the pearl valve 1144c that rolls left is far from recirculation hole, liquid State water enters 1131 right chamber of catheter by recirculation hole and enters right air pressure chamber by inlet and outlet 1137.

When ripples apply lifting active force upwards to suspension bucket 121, the one end of suspension bucket 121 far from suspension shell 1110 It is lifted up, and ball 122 is rolled towards the direction close to suspension shell 1110, suspension bucket 121 is hinged along its connection Axis circumferencial direction, which rotates and passes through power conductive members 1160, drives conduction sliding sleeve 1133 close along the extending direction of slide bar 1132 The direction of suspension bucket 121 is slided, and conduction sliding sleeve 1133 drives slide cartridge 1134 along 1131 length direction of catheter towards close to suspension The direction sliding of bucket 121, left air pressure chamber interior volume increase, and the air pressure of left air pressure chamber reduces, and extraneous liquid water is big Enter 1151 inner cavity of connecting tube by filter 1154 under the action of air pressure, liquid water promotion is drawn water on tee one-way valve 1145 The pearl valve that rolls left squeezes the helical spring that draws water on tee one-way valve 1145, the helical spring to draw water on tee one-way valve 1145 by It squeezes and shrinks and put aside elastic potential energy, drawing water, the pearl valve that rolls left on tee one-way valve 1145 is separate to draw water on tee one-way valve 1145 Recirculation hole, liquid water enters 1131 left chamber of catheter, catheter by the recirculation hole on tee one-way valve 1145 that draws water The liquid water of 1131 left chamber enters left air pressure chamber by inlet and outlet 1137.

At the same time, right air pressure chamber interior volume reduces, and the air pressure of right air pressure chamber interior increases, in right atmospheric pressure cavity room Liquid water enter 1131 right chamber of catheter by inlet and outlet 1137, liquid water pushes right ball valve 1144e to squeeze limit bullet Spring 1144f, limit spring 1144f are squeezed contraction and put aside elastic potential energy, and right ball valve 1144e is far from discharge orifice, drain The liquid water of 1131 right chamber of pipe enters drainpipe 1143 by discharge orifice and is discharged from outlet pipe 1142, at this time limit spring The elastic potential energy release of 1144f savings, the elastic force of limit spring 1144f push right ball valve 1144e to block discharge orifice.

The method that ripples kinetic energy carries out duration water pumping is acquired, step is：

S1：When the one end of suspension bucket 121 far from suspension shell 1110 moves downward under the action of water surface wave, ball 122 to Deviate the direction of suspension shell 1110 and roll, suspension bucket 121 rotates along articulated shaft circumferencial direction of its connection and drives amplification Transmitting rope 1127 on component a moves, and the transmitting rope 1127 amplified on component a pulls the transmitting amplified on component a Movable pulley 1124 is slided along the guide direction of transmitting sliding slot towards the direction close to suspension bucket 121, and the transmitting amplified on component a is dynamic It is that the transmitting amplified on component a mentions that pulley 1124, which drives the movement of transmitting traction rope 1123 and transmits the move distance of traction rope 1123, Twice of 1127 move distance of drawstring, transmitting traction rope 1123 drive transmitting sliding sleeve 1135 along slide bar 1132 extending direction towards Far from suspension bucket 121 direction slide, transmitting sliding sleeve 1135 drive slide cartridge 1134 along 1131 length direction of catheter away from The direction of suspension bucket 121 is slided, and left air pressure chamber interior volume reduces, and the air pressure of left air pressure chamber increases, in left atmospheric pressure cavity room Liquid water enter 1131 left chamber of catheter by inlet and outlet 1137, liquid water pushes the right sides drawn water on tee one-way valve 1145 Ball valve squeezes the limit spring drawn water on tee one-way valve 1145, and the limit spring drawn water on tee one-way valve 1145 is by crowded Pressure shrinks and puts aside elastic potential energy, and the right ball valve to draw water on tee one-way valve 1145 is separate to draw water on tee one-way valve 1145 Discharge orifice, liquid water enter 1141 inner cavity of aqueduct by the discharge orifice on tee one-way valve 1145 of drawing water and pass through outlet pipe 1142 discharges, the elastic potential energy release of the limit spring savings to be drawn water on tee one-way valve 1145 at this time, draw water tee one-way valve The elastic force of limit spring on 1145 pushes the stifled tee one-way valve that draws water of the right ball jam pot cover to draw water on tee one-way valve 1145 Discharge orifice on 1145；

S2：At the same time, right air pressure chamber interior volume increases, and the air pressure of right air pressure chamber interior reduces, extraneous liquid water Enter drinking-water pipe 1153 by filter 1154 under atmospheric pressure, liquid water enters drainage tube by drinking-water pipe 1153 1152, and liquid water promotion is made to roll left pearl valve 1144c far from recirculation hole, liquid water pushes the pearl valve 1144c extrusion spiral that rolls left Spring 1144d, helical spring 1144d are squeezed contraction and put aside elastic potential energy, and the pearl valve 1144c that rolls left is far from recirculation hole, liquid State water enters 1131 right chamber of catheter by recirculation hole and enters right air pressure chamber by inlet and outlet 1137；

S3：When ripples apply lifting active force upwards to suspension bucket 121, the one end of suspension bucket 121 far from suspension shell 1110 It is lifted up, and ball 122 is rolled towards the direction close to suspension shell 1110, suspension bucket 121 is hinged along its connection Axis circumferencial direction, which rotates and passes through power conductive members 1160, drives conduction sliding sleeve 1133 close along the extending direction of slide bar 1132 The direction of suspension bucket 121 is slided, and conduction sliding sleeve 1133 drives slide cartridge 1134 along 1131 length direction of catheter towards close to suspension The direction sliding of bucket 121, left air pressure chamber interior volume increase, and the air pressure of left air pressure chamber reduces, and extraneous liquid water is big Enter 1151 inner cavity of connecting tube by filter 1154 under the action of air pressure, liquid water promotion is drawn water on tee one-way valve 1145 The pearl valve that rolls left squeezes the helical spring that draws water on tee one-way valve 1145, the helical spring to draw water on tee one-way valve 1145 by It squeezes and shrinks and put aside elastic potential energy, drawing water, the pearl valve that rolls left on tee one-way valve 1145 is separate to draw water on tee one-way valve 1145 Recirculation hole, liquid water enters 1131 left chamber of catheter, catheter by the recirculation hole on tee one-way valve 1145 that draws water The liquid water of 1131 left chamber enters left air pressure chamber by inlet and outlet 1137；

S4：At the same time, right air pressure chamber interior volume reduces, and the air pressure of right air pressure chamber interior increases, in right atmospheric pressure cavity room Liquid water enter 1131 right chamber of catheter by inlet and outlet 1137, liquid water pushes right ball valve 1144e to squeeze limit bullet Spring 1144f, limit spring 1144f are squeezed contraction and put aside elastic potential energy, and right ball valve 1144e is far from discharge orifice, drain The liquid water of 1131 right chamber of pipe enters drainpipe 1143 by discharge orifice and is discharged from outlet pipe 1142, at this time limit spring The elastic potential energy release of 1144f savings, the elastic force of limit spring 1144f push right ball valve 1144e to block discharge orifice；

S5：It repeats the above steps and achievable persistently draws water under the continuous action of water surface wave.

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, in knowing the present invention after contents, without departing from the principle of the present invention, it can also be made several Same transformation and replacement, these convert and substitute on an equal basis and also should be regarded as belonging to the scope of protection of the present invention.

Claims (6)

1. can be carried out the Water Wave Pump of sustainable water supply using cleaning nature, which is characterized in that it includes for collecting water surface wave Kinetic energy and potential energy as power draw liquid water water absorber, water absorber include for collect the kinetic energy of water surface wave and The collecting mechanism of potential energy, the power for receiving collecting mechanism collection and in this, as the water pumping mechanism of power extraction liquid water, are received Collecting mechanism is hinged with water pumping mechanism and collecting mechanism and water pumping mechanism are coaxially disposed, and collecting mechanism and water pumping mechanism use lightweight material Material is made and can be suspended on the water surface, is connected to below water pumping mechanism and the water surface；

Above-mentioned water pumping mechanism include suspension shell, be set to suspension shell it is intracorporal for transmit power power transfer member, Power conductive members, the air pressure adjustment component for adjusting air pressure, the pipe component that draws water, draining pipe component, suspension shell and collection Mechanism is hinged；

Wherein, power transfer member and power conductive members receive the power of collecting mechanism transmitting and power are transferred to air pressure tune Component is saved, when collecting mechanism drives the movement of air pressure adjustment component by power conductive members, air pressure adjustment element cavity air pressure Reduce, extraneous liquid water enters air pressure adjustment element cavity by the pipe component that draws water under atmospheric pressure, when the machine of collection When structure drives the movement of air pressure adjustment component by power transfer member, air pressure adjustment element cavity air pressure increases, air pressure adjustment structure The liquid water of part inner cavity passes through draining pipe component discharge under the action of high pressure.

2. the Water Wave Pump according to claim 1 that can be carried out sustainable water supply using cleaning nature, which is characterized in that above-mentioned Suspension shell be that hollow columnar cylinder and suspension shell are horizontally disposed, the inner cavity both ends of suspension shell are provided with inner hollow Supporting element；

Above-mentioned air pressure adjustment component includes catheter, and the both ends of catheter are coaxially disposed and are led with suspension shell by supporting element The both ends of liquid pipe are located at the inner cavity of supporting element, and the outer cover of catheter is equipped with the slide cartridge that can be slided along catheter length direction, sliding Cylinder inner hollow, the outer cover of catheter is equipped with rubber piston and rubber piston is located at slide cartridge inner cavity, rubber piston in slide cartridge Chamber matching, rubber piston by slide cartridge inner cavity be divided into two chambers and be respectively be located at rubber piston on the left of left air pressure chamber, Right air pressure chamber on the right side of rubber piston, rubber piston block catheter lumen, and rubber piston divides catheter lumen For two chambers and it is respectively to be located at the left chamber on the left of rubber piston, the right chamber on the right side of rubber piston, is located at rubber It is provided with the inlet and outlet for the liquid water that circulates outside catheter on the left of glue piston, imports and exports close to rubber piston；

Above-mentioned power transfer member and power conductive members is connect with slide cartridge, when power conductive members drive slide cartridge along catheter When length direction slides, left air pressure chamber interior volume increases, and the air pressure of left air pressure chamber reduces, and extraneous liquid water is in atmosphere Left chamber is entered by the pipe component that draws water under the action of pressure and enters left air pressure chamber by inlet and outlet, when power transfer member band When dynamic slide cartridge is along catheter length direction reverse slide, left air pressure chamber interior volume reduces, and the air pressure of left air pressure chamber increases, The left indoor liquid water of atmospheric pressure cavity enters left chamber by inlet and outlet and passes through draining pipe component discharge.

3. the Water Wave Pump according to claim 2 that can be carried out sustainable water supply using cleaning nature, which is characterized in that drain Several inlet and outlet for being connected to right air pressure chamber are equally offered in the right chamber of pipe, the inlet and outlet positioned at right chamber are close to rubber Piston and the inlet and outlet are arranged along the circumferencial direction uniform intervals of catheter, positioned at the inlet and outlet of left chamber be provided with several and The circumferencial direction uniform intervals imported and exported along catheter arrange,

Wherein, the both ends port that catheter is located at supporting element inner cavity is all connected with connection and draws water pipe component and draining pipe component, when dynamic When power conductive members drive slide cartridge to slide along catheter length direction, left air pressure chamber interior volume increases, left air pressure chamber Air pressure reduces, and extraneous liquid water enters left chamber by the pipe component that draws water under atmospheric pressure and entered by inlet and outlet Left air pressure chamber, at the same time, right air pressure chamber interior volume reduce, and the air pressure of right air pressure chamber interior increases, right atmospheric pressure cavity The liquid water of chamber interior is discharged into the external world by inlet and outlet, catheter, draining pipe component, when power transfer member drives slide cartridge edge to lead When liquid pipe length direction reverse slide, left air pressure chamber interior volume reduces, and the air pressure of left air pressure chamber increases, left air pressure chamber Interior liquid water enters left chamber by inlet and outlet and passes through draining pipe component discharge, and at the same time, right air pressure chamber interior is empty Between increase, the air pressure of right air pressure chamber interior reduces, extraneous liquid water under atmospheric pressure by draw water pipe component into Enter right chamber and enters right air pressure chamber by inlet and outlet.

4. the Water Wave Pump according to claim 3 that can be carried out sustainable water supply using cleaning nature, which is characterized in that above-mentioned Power transfer member and power conductive members connect with slide cartridge, and power transfer member and power conductive members can drive cunning Cylinder is unidirectionally slided along the length direction of catheter, the glide direction phase of power transfer member and power conductive members drive slide cartridge Instead, power transfer member and power conductive members are located at suspension housing cavity and are located at the side of slide cartridge.

5. the Water Wave Pump according to claim 4 that can be carried out sustainable water supply using cleaning nature, which is characterized in that above-mentioned Power transfer member include two transmitting support plates parallel to each other, transmitting traction rope, transmit the length direction of support plate with The central axial direction of suspension shell is in parallel and the both ends of transmitting support plate are connect with the end of suspension shell, and transmitting support plate is remote One end from collecting mechanism is clamped with can be around the transmitting fixed pulley of own axis, one end of above-mentioned transmitting traction rope and cunning Cylinder passes through transmitting fixed pulley towards collecting mechanism close to one end periphery connection of collecting mechanism, the other end of transmitting traction rope Direction, which extends and passes through threading hole, to be connect across suspension shell wall thickness with collecting mechanism.

6. the Water Wave Pump according to claim 3 that can be carried out sustainable water supply using cleaning nature, which is characterized in that above-mentioned Draining pipe component include drainpipe, aqueduct, the outlet pipe for connecting discharge mechanism, drainpipe and aqueduct, outlet pipe It is connected to by water draining tee pipe, outlet pipe passes through suspension shell wall thickness far from one end of water draining tee pipe and is in communication with the outside, and drains Pipe component further includes water draining tee check valve, draw water tee one-way valve, the one end of drainpipe far from water draining tee pipe and draining three Logical check valve connection is connected, and drainpipe is connected far from one end of collecting mechanism by water draining tee check valve and catheter and connected, The one end of aqueduct far from water draining tee pipe connect connection with the tee one-way valve that draws water, aqueduct by draw water tee one-way valve with Catheter is connected close to one end of collecting mechanism and is connected, and the liquid water in catheter passes through water draining tee check valve and threeway of drawing water Check valve unidirectionally flows into drainpipe and diversion tube cavity；

The above-mentioned pipe component that draws water includes drainage tube, connecting tube, extends to water surface drinking-water pipe below, drainage tube and connecting tube, Drinking-water pipe is connected to by pumping water three-way pipe, and drinking-water pipe passes through suspension shell wall thickness far from one end of pumping water three-way pipe and connects with liquid water Logical, the one end of drainage tube far from pumping water three-way pipe connect connection with water draining tee check valve, and drainage tube is unidirectional by water draining tee Valve and catheter are connected far from one end of collecting mechanism to be connected, and the one end of connecting tube far from pumping water three-way pipe and threeway of drawing water are unidirectional Valve connection is connected, and connecting tube by draw water tee one-way valve and catheter, close to one end of collecting mechanism, connect by connection, drainage tube Catheter lumen is unidirectionally flowed by water draining tee check valve and the tee one-way valve that draws water with the liquid water in connecting tube.