CN202531375U - Static hydropower water feeder - Google Patents

Abstract

The utility model discloses a static hydropower water feeder belonging to the field of recycling water resources. The static hydropower water feeder comprises an upper pumping cylinder, a lower pumping cylinder, a piston assembly connecting rod, an electric controller, a pumping cylinder operating room, a water storage cylinder, a piston stroke switch, a backwater non return valve, a pumping cylinder operating room vacuum regulator, a water conserving cylinder, a piston assembly guiding regulator, a water inlet non return valve, a water outlet non return valve, and a pumping cylinder in-out water pipe. The static hydropower water feeder reconstructs a piston of a positive displacement single cylinder single action reciprocating pump in the prior art into a top-and-bottom cylinder piston assembly connecting rod in order to replace a single cylinder piston rod. When a water source with a high drop flows into the water storage cylinder above the piston assembly connecting rod, static kinetic energy of the water source is transformed into pressure power to drive the piston assembly connecting rod to move downwards rapidly. When the piston assembly connecting rod moves upwards, an external water source is absorbed into the water conserving cylinder in order to mitigate weight as the piston assembly connecting rod moves upwards as well as to reduce energy consumption as the piston assembly connecting rod moves upwards to reset, and thus high-efficiency energy saving during a static pressurization water supply process is realized.

Description

Static(al) water can water feeder

Technical field

The present invention relates to a kind of static(al) water ability water feeder that is applicable to that water resourcess such as municipal administration once supplies water, the high building secondary has force feed water, cooling circulation cooling water of air conditioner, retaining and water-energy generating electricity, drought resisting row stain circulate and can utilize the field again.

Background technique

Existing way of supplying water is through adopting positive displacement single-cylinder single-acting reciprocating pump to realize.Its working principle: when piston moved up, the pumping cylinder swept volume of a single chamber enlarged, pressure descends produces vacuum, and suction valve is opened, and liquid is inhaled into outlet, and outlet valve is closed; When piston moved down, the pumping cylinder swept volume of a single chamber reduced, and pressure rises, suction valve closure, and outlet valve is opened, and liquid is discharged from.Through piston reciprocating action like this, cause liquid constantly is inhaled into, is discharged from.

The existing technology deficiency: 1. suction valve, expulsion valve need consume energy; 2. suction head is little, and range of flow is little; 3. structure is complicated; 4. easily damaged parts is many, inconvenient maintenance; 5. higher to sucking water quality requirement; 6. power consumption is big.

Existing pump body characteristics: 1. Centrifugal water pump: flow is big, and pressure is low, and efficient is low, and power consumption is big, and noise is big.2. volumetric water pump: pressure is high, and flow is little, and efficient is higher, and power consumption is big, and noise is big.

Summary of the invention

The object of the present invention is to provide a kind of static(al) water ability water feeder.Water resources circulations such as municipal administration once supplies water, the high building secondary has force feed water, cooling circulation cooling water of air conditioner, retaining and water-energy generating electricity, drought resisting row stain can be widely used in and the field can be utilized again.

The technological scheme of static(al) water ability water feeder of the present invention is: comprise pumping cylinder ⑴, following pumping cylinder ⑵, piston assembly connecting rod ⑷, Electricity Federation controller ⑶; It is characterized in that the piston that will have positive displacement single-cylinder single-acting reciprocating pump now is transformed into two-cylinder piston assembly connecting rod up and down; To replace the single cylinder piston rod; It is that piston by the piston of last pumping cylinder ⑴ and following pumping cylinder ⑵ connects to form through connecting rod; Pumping cylinder ⑴ be will go up by the piston of last pumping cylinder ⑴ and the ⑺ of pumping cylinder working room and water storage cylinder ⒂ two-part will be divided into; And be provided with piston assembly inlet valve ⑸ in last pumping cylinder ⑴ water storage cylinder ⒂ top position, and be provided with piston stroke switch ⑻, backwater one-way valve ⑼, the vacuum governor ⒁ of pumping cylinder working room in ⑺ bottom, last pumping cylinder ⑴ pumping cylinder working room, be provided with storage cylinder of water ⑹ at pumping cylinder ⑵ down; Piston and connecting rod joint at following pumping cylinder ⑵ are provided with piston assembly guiding regulator ⒀, are provided with into water one-way valve ⑽, check valve of water drainage ⑾, pumping cylinder turnover water pipe ⑿ in following pumping cylinder ⑵ storage cylinder of water ⑹ bottom.

Static(al) water ability water feeder of the present invention is characterized in that the switching by Electricity Federation controller ⑶ control piston assembly inlet valve (5), backwater one-way valve ⑼, check valve of water drainage (11).

Static(al) water ability water feeder of the present invention, when it is characterized in that piston assembly moves up and down, piston stroke is by piston stroke switch (8) control, and vertically-guided is led by piston assembly, and regulator (13) is automatic to be regulated.

The present invention is a working principle of utilizing U type hydrostatic equilibrium principle and existing positive displacement single-cylinder single-acting reciprocating pump; The piston of last pumping cylinder ⑴ and the piston of following pumping cylinder ⑵ are connected to form piston assembly connecting rod ⑷ through connecting rod; When high drop water source flows to the water storage cylinder of piston assembly connecting rod ⑷ top; Static(al) kinetic energy moment at water source has converted the power of pressing to; Can strengthen the gravity speed energy of piston when moving down, both promote the static(al) supercharging power of piston when moving down, can drive piston assembly connecting rod ⑷ again and move down fast; Simultaneously, when moving on the utilization piston assembly connecting rod ⑷, the expansion of pumping cylinder working room (7) volume; Degree of vacuum and external water source (20) pressure acting in conjunction that pressure descends and produces; Wash down the water inlet one-way valve (10) of pumping cylinder (2) open,, move weight to alleviate on the piston assembly connecting rod ⑷ with external water source (20) inspiration storage cylinder of water (6); Also reduced on the piston assembly connecting rod ⑷ and moved the energy consumption that resets, thereby realized the energy-efficient of static(al) pressurized water supply process.

Advantage of the present invention and with have positive displacement single-cylinder single-acting reciprocating pump difference now and be: 1. quoted U type hydrostatic equilibrium principle,, need not power consumption and suction power consumption the static(al) at high drop water source supercharging power source as water feeder; When moving on the piston assembly connecting rod ⑷, it is up to be merely own wt, and piston assembly leans on the static(al) at high drop water source to promote descending when moving down.Therefore, power consumption is extremely low in the water inlet draining periodic duty process that promotes to move back and forth up and down; 2. pump pressure strengthens, and efficient is higher; 3. flow increases, and power consumption reduces; 4. energy-conserving and environment-protective, noiseless; 5. application is more extensive; 6. simple in structure, easy maintenance; 7. cost of production is low, and is easy for installation; 8. need not heat radiation.

Description of drawings

Fig. 1 can the water feeder structural representation for static(al) water.

Go up pumping cylinder (1), following pumping cylinder (2), Electricity Federation controller (3), piston assembly connecting rod (4), piston assembly inlet valve (5) among the figure; Storage cylinder of water (6), pumping cylinder working room (7), piston stroke switch (8), backwater one-way valve (9); Water inlet one-way valve (10), check valve of water drainage (11), pumping cylinder turnover water pipe (12), piston assembly guiding regulator (13); Pumping cylinder working room vacuum governor (14), water storage cylinder (15), elevated platform (16) (being female water source), inferior elevated platform (17); High building wet pit (18), female water head (19), external water source (20), low level wet pit (21); Water feeder intake pipe (22), water feeder drainage pipe (23), female water water return pipeline (24-1), female water water return pipeline (24-2).

Fig. 2 is a U type principle schematic.

Elevated platform among the figure (16) (being female water source), inferior elevated platform (17), female water head (19); Water feeder intake pipe (22), water feeder drainage pipe (23), female water water return pipeline (24-1); Female water water return pipeline (24-2), water feeder (25), low power consuming water pump (26).

Embodiment

Below in conjunction with Fig. 1 and Fig. 2 the present invention is described further.

Embodiment: with reference to Fig. 1: present embodiment comprises pumping cylinder (1), following pumping cylinder (2), Electricity Federation controller (3), piston assembly connecting rod (4), piston assembly inlet valve (5); Storage cylinder of water (6), pumping cylinder working room (7), piston stroke switch (8), backwater one-way valve (9); Water inlet one-way valve (10), check valve of water drainage (11), pumping cylinder turnover water pipe (12), piston assembly guiding regulator (13); Pumping cylinder working room vacuum governor (14), water storage cylinder (15), elevated platform (16) (being female water source), inferior elevated platform (17); High building wet pit (18), female water head (19), external water source (20), low level wet pit (21); Water feeder intake pipe (22), water feeder drainage pipe (23), female water water return pipeline (24-1), female water water return pipeline (24-2).

With reference to Fig. 2: elevated platform (16) (being female water source), inferior elevated platform (17), female water head (19); Water feeder intake pipe (22); Water feeder drainage pipe (23), female water water return pipeline (24-1), female water water return pipeline (24-2); Water feeder (25), low power consuming water pump (26).

Female water head (19) when high drop water source; When drop inflow low level water feeder (25) is gone up the piston assembly inlet valve (5) of pumping cylinder (1); Static(al) kinetic energy moment at water source converts the power of pressure to, promotes piston assembly connecting rod ⑷ and moves down fast, makes that the pumping cylinder ⑴ pumping cylinder ⑺ of working room volume dwindles rapidly, the pressure fast rise; Static(al) kinetic energy and piston at the water source move down under the common supercharging of gravity speed energy; Water in the storage cylinder of water ⑹ through the check valve of water drainage (11) and pumping cylinder turnover water pipe (12) discharge fast of pumping cylinder (2) down, is delivered to the place that needs through water feeder drainage pipe (23), like high building wet pit (18) again; Female water head (19) at high drop water source turns back to time elevated platform (17) through backwater one-way valve ⑼ and female water water return pipeline (24-1); Again through low power consuming water pump (26) with backwater through female water water return pipeline (24-2); Send elevated platform (16) (being female water source) back to, to produce next recirculation.

When piston assembly connecting rod (4) moves down into piston stroke switch (8), move down stroke and accomplish.Come control piston assembly inlet valve (5), backwater one-way valve ⑼, check valve of water drainage (11) to close through Electricity Federation controller (3), piston assembly connecting rod (4) begins to move up and resets.At this moment; Last pumping cylinder (1) pumping cylinder working room (7) volume begins to enlarge, pressure progressively descends to be produced degree of vacuum and external water source (20) pressure acting in conjunction; Wash down the water inlet one-way valve (10) of pumping cylinder (2) open; Pumping cylinder turnover water pipe (12) inspiration storage cylinder of water (6) is also passed through through water feeder intake pipe (22) again through low level wet pit (21) in external water source (20), and regulate inflow and flow velocity, move weight to alleviate on the piston assembly connecting rod (4) through pumping cylinder working room vacuum governor (14); Simultaneously, also reduced on the piston assembly connecting rod (4) and moved the energy consumption that resets.

Claims (2)

1. a static(al) water can water feeder; Comprise pumping cylinder, following pumping cylinder, piston assembly connecting rod, Electricity Federation controller; It is characterized in that the piston that will have positive displacement single-cylinder single-acting reciprocating pump now is transformed into two-cylinder piston assembly connecting rod up and down; To replace the single cylinder piston rod, will go up pumping cylinder by the piston of last pumping cylinder and be divided into pumping cylinder working room and water storage cylinder two-part, and be provided with the piston assembly inlet valve in last pumping cylinder water storage cylinder top position; Be provided with piston stroke switch, backwater one-way valve, pumping cylinder working room vacuum governor in bottom, last pumping cylinder pumping cylinder working room; Be provided with storage cylinder of water at following pumping cylinder, be provided with piston assembly guiding regulator, be provided with into water one-way valve, check valve of water drainage, pumping cylinder turnover water pipe in following pumping cylinder storage cylinder of water bottom in the piston and the connecting rod joint of following pumping cylinder.

2. static(al) water ability water feeder according to claim 1 is characterized in that said piston assembly connecting rod is to be connected to form through connecting rod by the piston of last pumping cylinder and the piston of following pumping cylinder.

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