CN111068972B - Energy-saving fountain with turbine generator - Google Patents

Abstract

The invention discloses an energy-saving fountain with a turbine generator, which comprises a fountain box arranged in the ground, wherein a water storage cavity for storing fountain water is arranged at the bottom of the fountain box, a lower partition plate is arranged at the top of the water storage cavity, a turbine cavity is arranged above the lower partition plate, an upper partition plate is arranged above the turbine cavity, a water pool with an opening at the upper part is arranged above the upper partition plate, and the mechanical energy of the fountain water is converted into electric energy again and then used for a hydraulic pump, so that the energy recycling is realized, and the energy consumption is reduced; the combined power supply of the generator and the storage battery can be used for easily switching between a high-power electric appliance and a low-power electric appliance, so that the electric energy generated by the generator is fully utilized; the water circulation of the interlayer between the water pool and the water storage cavity is realized through the one-way valve and the communicating pipe.

Description

Energy-saving fountain with turbine generator

Technical Field

The invention relates to the technical field of turbines, in particular to an energy-saving fountain provided with a turbine generator.

Background

The fountain is a combination body which sprays water or other liquid out through a nozzle under certain pressure and has a specific shape, the fountain provides water pressure and is generally a water pump,

the fountain is a very common landscape, can be seen in many scenic spots and even on the roadside, a good fountain can play a role of decoration in a proper place, and is very comfortable for people to feel, most of the prior fountains are powered by a water pump, then the water in a pool is pumped and sprayed out through a spray head, and then falls into the pool again to form a closed water circulation, because the fountain is generally operated for a long time, the water pump needs to consume a great deal of energy, the waste is not suitable in the society with energy shortage nowadays,

the water sprayed from the fountain is pushed by the water pump to carry a great deal of mechanical energy, which is converted from the electric energy of the water pump, and if the energy can be reused, a lot of energy can be saved.

Disclosure of Invention

The object of the present invention is to provide an energy-saving fountain equipped with a turbogenerator, which overcomes the above-mentioned drawbacks of the prior art.

The energy-saving fountain provided with the turbine generator comprises a fountain box arranged in the ground, wherein a water storage cavity for storing spring water is arranged at the bottom of the fountain box, a lower partition plate is arranged at the top of the water storage cavity, a turbine cavity is arranged above the lower partition plate, an upper partition plate is arranged above the turbine cavity, a water pool with an opening at the upper part is arranged above the upper partition plate, a hydraulic pump is fixedly arranged on the center of the bottom wall of the water storage cavity, a water conveying pipe penetrating through the top wall of the water storage cavity, the turbine cavity and the upper partition plate and extending out of the water pool is connected above the hydraulic pump, inner nozzles for spraying water upwards and eight side nozzles in an annular array are fixedly arranged at the top of the water conveying pipe, water sprayed from the inner nozzles falls back into the water pool again, and water sprayed from the eight side nozzles falls into water receiving openings in the eight corresponding annular arrays and positioned in the water pool and far away from one side of the water conveying pipe, the top of the water receiving port is fixedly provided with a blocking net used for blocking sundries from entering the water receiving port, a turbine device capable of absorbing mechanical energy of water is arranged below the water receiving port, the turbine device comprises a volute positioned in a turbine cavity, the center of the volute is rotatably connected with a rotating shaft, and the other end of the rotating shaft is connected with a conversion mechanism used for converting the mechanical energy of the absorbed water into electric energy and storing or consuming the electric energy.

On the basis of the technical scheme, the turbine device further comprises a funnel-shaped necking pipe fixedly arranged below the water receiving port, the lower portion of the necking pipe is fixedly connected with a water inlet penetrating through and fixedly connected with the upper division plate, the lower portion of the water inlet is fixedly connected with the volute, a volute cavity is arranged inside the volute, a turbine fixedly connected with the rotating shaft is arranged in the volute cavity, blades of an annular array and used for absorbing mechanical energy of water are fixedly arranged on the turbine, and the lower portion of the volute is fixedly connected with a water outlet penetrating through and fixedly arranged on the lower division plate.

On the basis of the technical scheme, the conversion mechanism comprises a generator connected with the rotating shaft, a base which is used for bearing and located on the upper wall of the lower separation plate is installed below the generator, a storage battery is installed on the upper wall of the base, the generator is close to one side of the storage battery, a power generation anode and a power generation cathode are respectively arranged on one side of the storage battery, the storage battery is close to one side of the generator, an energy storage anode and an energy storage cathode are respectively arranged on one side of the generator, an electric wire is connected between the power generation anode and the energy storage anode and between the power generation cathode and the energy storage cathode, and the energy storage anode and the energy storage cathode are connected with an electric.

On the basis of the technical scheme, one side annular array close to the water transporting pipe penetrates through the lower separation plate, the turbine cavity and the upper separation plate and is used for communicating the water storage cavity with a communicating pipe of the water pool, and a one-way valve is installed at the top of the communicating pipe.

On the basis of the technical scheme, the eight storage batteries are connected in series and form a larger storage battery, the type of the electric appliance can be switched, when the electric appliance is an electric appliance with lower power consumption, the generator can charge the storage batteries and supply power to the electric appliance with lower power consumption on one side, and when the electric appliance is an electric appliance with larger power consumption, the generator can be connected with the storage batteries together to supply power to the hydraulic pump.

On the basis of the technical scheme, branch has set firmly between the roof in water storage chamber and the diapire, sliding connection has the kicking block on the branch, install on the kicking block and be used for detecting the level sensor of water storage intracavity water level, the suction pump has set firmly on the diapire in water storage chamber, be connected with on the suction pump and run through the right wall in water storage chamber is stretched out the fountain case just stretches subaerial drain pipe, level sensor with suction pump electric connection, the suction pump also can manual control switch.

The invention has the beneficial effects that: mechanical energy of the spring water is converted into electric energy again and then used for the hydraulic pump to provide electric power for the hydraulic pump, so that energy recycling is realized, and energy consumption is reduced; the combined power supply of the generator and the storage battery can easily switch between a high-power electric appliance and a low-power electric appliance, fully utilize the electric energy generated by the generator and avoid the waste of the electric energy; the water circulation of the interlayer between the water pool and the water storage cavity is realized through the one-way valve and the communicating pipe.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic view of the overall structure of an energy-saving fountain equipped with a turbine generator according to the present invention;

FIG. 2 is a schematic view of the present invention taken along the line A-A of FIG. 1;

FIG. 3 is a schematic view of the structure of FIG. 1 in the direction B-B according to the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, for the sake of convenience, the orientations described hereinafter being defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 3, an energy saving fountain equipped with a turbine generator according to an embodiment of the present invention includes a fountain tank 20 installed in a floor, a water storage chamber 30 for storing spring water is provided at the bottom of the fountain tank 20, a lower partition plate 31 is provided at the top of the water storage chamber 30, a turbine chamber 27 is provided above the lower partition plate 31, an upper partition plate 24 is provided above the turbine chamber 27, a water tank 23 having an upper opening is provided above the upper partition plate 24, a hydraulic pump 37 is fixedly installed at the center of the bottom wall of the water storage chamber 30, a water transport pipe 36 penetrating through the top wall of the water storage chamber 30, the turbine chamber 27, the upper partition plate 24 and extending out of the water tank 23 is connected above the hydraulic pump, an inner spout 39 for spraying water upward and eight side spouts 38 in an annular array are fixedly provided at the top of the water transport pipe 36, water sprayed from the inner spout 39 falls back into the water tank 23, the water sprayed from the eight side nozzles 38 will fall into the water receiving openings 21 of the eight corresponding annular arrays on the side of the water tank 23 far away from the water transporting pipe 36, a blocking net 60 for blocking sundries from entering the water receiving opening 21 is fixedly arranged at the top of the water receiving opening 21, the baffle net 60 does not absorb excessive mechanical energy of the spring water, a turbine device 801 capable of absorbing the mechanical energy of the water is arranged below the water receiving port 21, the turbine device 801 comprises a volute 50 located in the turbine chamber 27, a rotating shaft 40 is rotatably connected to the center of the volute 50, the other end of the rotating shaft 40 is connected to a conversion mechanism 802 for converting the mechanical energy of the absorbed water into electric energy and storing or consuming the electric energy, and when the hydraulic pump 37 is started, the water in the water storage chamber 30 is sucked into the water pipe 36 and is sprayed out from the inner nozzle 39 and the side nozzle 38.

In addition, in one embodiment, the turbine device 801 further includes a funnel-shaped reducing pipe 25 fixedly disposed below the water receiving opening 21, a water inlet 26 penetrating and fixedly connected to the upper separation plate 24 is fixedly connected below the reducing pipe 25, the volute 50 is fixedly connected below the water inlet 26, a vortex chamber 33 is disposed inside the volute 50, a turbine 29 fixedly connected to the rotating shaft 40 is disposed inside the vortex chamber 33, an annular array of blades 28 for absorbing mechanical energy of water is fixedly disposed on the turbine 29, a water outlet 32 penetrating and fixedly disposed below the volute 50 is fixedly connected to the lower separation plate 31, when water flows down from the water inlet 26 and impacts the blades 28, the blades 28 absorb mechanical energy of water and start to rotate, and the rotating motion of the blades 28 drives the turbine 29 to rotate and further rotate the rotating shaft 40, the mechanical energy of the water is converted into the mechanical energy of the rotating shaft 40, and then the water flows into the water storage cavity 30 from the water outlet 32.

In addition, in one embodiment, the conversion mechanism 802 includes a generator 41 coupled to the shaft 40, a base 49 for bearing is installed below the generator 41 on the upper wall of the bottom separation plate 31, a storage battery 46 is installed on the upper wall of the base 49, a power generation anode 42 and a power generation cathode 48 are respectively arranged on one side of the generator 41 close to the storage battery 46, an energy storage positive electrode 45 and an energy storage negative electrode 47 are respectively arranged on one side of the storage battery 46 close to the generator 41, wires 43 are connected between the power generation positive electrode 42 and the energy storage positive electrode 45 and between the power generation negative electrode 48 and the energy storage negative electrode 47, the energy storage positive electrode 45 and the energy storage negative electrode 47 are connected with an electrical appliance 44 through the electric wire 43, the generator 41 converts the mechanical energy of the shaft 40 into electrical energy and is stored by the battery 46 or used directly for consumption by the consumer 44.

In addition, in an embodiment, there are 6 communicating pipes 35 running through the bottom separation plate 31, the turbine chamber 27, and the top separation plate 24 and used for communicating the water storage chamber 30 with the water tank 23 in an annular array on one side of the water transporting pipe 36, a one-way valve 34 is installed at the top of the communicating pipe 35, when the water in the water tank 23 is too much and reaches a certain water pressure, the one-way valve 34 is opened, at this time, the water in the water tank 23 can flow into the water storage chamber 30, so as to realize the circulation of the water, and if it is in rainy days, the one-way valve 34 can control the amount of the water in the water tank 23 to be stabilized at a proper value.

In addition, in an embodiment, eight storage batteries 46 are connected in series to form a larger storage battery, the types of the electrical appliances 44 can be switched, when the electrical appliances 44 are electrical appliances with lower power consumption, the generator 41 can charge the storage batteries 46 and supply power to the electrical appliances 44 with lower power consumption, and when the electrical appliances 44 are electrical appliances with higher power consumption, the generator 41 and the storage batteries 46 can supply power to the hydraulic pump 37.

In addition, in one embodiment, a support rod 53 is fixedly arranged between the top wall and the bottom wall of the water storage cavity 30, the supporting rod 53 is slidably connected with a floating block 55, a water level sensor 54 for detecting the water level in the water storage cavity 30 is installed on the floating block 55, a water pump 51 is fixedly arranged on the bottom wall of the water storage cavity 30, a drain pipe 52 which penetrates through the right wall of the water storage cavity 30, extends out of the fountain tank 20 and extends to the ground is connected to the water pump 51, the water level sensor 54 is electrically connected with the water pump 51, the water pump 51 can be controlled by a manual switch, when excessive water in the water tank 23 flows into the water storage chamber 30 in rainy days, the floating block 55 is lifted, the water level sensor 54 receives the signal and starts the water pump 51 to pump out the excessive water and discharge the excessive water to the ground, and the water pump can also be manually controlled and change the water in the water storage cavity 30.

In the initial state, there is no electrical energy in the battery 46.

When the fountain needs to be started, when the hydraulic pump 37 is started, the hydraulic pump 37 supplies power normally, water in the water storage cavity 30 is sucked into the water conveying pipe 36 and is sprayed out from the inner nozzle 39 and the side nozzle 38, the water in the inner nozzle 39 is sprayed out upwards and then falls into the water pool 23 again, when the water in the water pool 23 is too much and reaches a certain water pressure, the one-way valve 34 is opened, the water in the water pool 23 can flow into the water storage cavity 30 at the moment, the circulation of the water is realized, if the water meets rainy days, the one-way valve 34 can control the water quantity in the water pool 23 to be stabilized at a proper value,

the water in the side spout 38 will fall into the water receiving opening 21 and reach the water inlet 26 through the reducing pipe 25, when the water flows down from the water inlet 26 and impacts the blade 28, the blade 28 absorbs the mechanical energy of the water and starts to rotate, the rotation of the blade 28 drives the turbine 29 to rotate and further rotates the rotating shaft 40, the mechanical energy of the water is converted into the mechanical energy of the rotating shaft 40, then the water flows into the water storage cavity 30 from the water outlet 32, the mechanical energy of the rotating shaft 40 is converted into the electrical energy by the generator 41 and stored by the storage battery 46 or directly used for the consumption of the electrical appliance 44, when the electrical energy of the storage battery 46 is full, the hydraulic pump 37 will be powered by the generator 41 together with the storage battery 46 until the electrical energy of the storage battery 46 is used up, and returns to the initial state.

The invention has the beneficial effects that: mechanical energy of the spring water is converted into electric energy again and then used for the hydraulic pump to provide electric power for the hydraulic pump, so that energy recycling is realized, and energy consumption is reduced; the combined power supply of the generator and the storage battery can easily switch between a high-power electric appliance and a low-power electric appliance, fully utilize the electric energy generated by the generator and avoid the waste of the electric energy; the water circulation of the interlayer between the water pool and the water storage cavity is realized through the one-way valve and the communicating pipe.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (1)

1. An energy-saving fountain equipped with a turbine generator, comprising a fountain box installed in the ground, characterized in that: fountain bottom of the case portion is equipped with the water storage chamber that is used for storing fountain water, the top in water storage chamber is equipped with the division board down, the top in division board down is equipped with the turbine chamber, turbine chamber top is equipped with the top division board, top division board top is equipped with top open-ended pond, fixed mounting has the hydraulic pump on the diapire positive center in water storage chamber, the top of hydraulic pump is connected with the roof that runs through the water storage chamber the turbine chamber the top division board stretches out the water carrying pipe in the pond, the top of water carrying pipe sets firmly the interior spout of upwards spraying water and eight side spouts of annular array, spun water will fall back again in the interior spout in the pond, eight in the spout of side spun water will fall into being located of eight respective corresponding annular array in the pond and keeping away from in the water receiving mouth of water carrying pipe one side, the top of water receiving mouth sets firmly and is used for blockking some debris from getting into the fender net in the water receiving mouth, a turbine device capable of absorbing mechanical energy of water is arranged below the water receiving port, the turbine device comprises a volute positioned in a turbine cavity, the center of the volute is rotatably connected with a rotating shaft, and the other end of the rotating shaft is connected with a conversion mechanism used for converting the mechanical energy of the absorbed water into electric energy and storing or consuming the electric energy; the turbine device also comprises a funnel-shaped necking pipe fixedly arranged below the water receiving port, a water inlet penetrating through and fixedly connected to the upper division plate is fixedly connected below the necking pipe, a volute is fixedly connected below the water inlet, a vortex cavity is arranged inside the volute, a turbine fixedly connected to the rotating shaft is arranged inside the vortex cavity, an annular array of blades used for absorbing mechanical energy of water are fixedly arranged on the turbine, and a water outlet penetrating through and fixedly arranged on the lower division plate is fixedly connected below the volute; the conversion mechanism comprises a generator connected with the rotating shaft, a base which is positioned on the upper wall of the bottom separation plate and used for bearing is arranged below the generator, a storage battery is arranged on the upper wall of the base, a power generation anode and a power generation cathode are respectively arranged on one side of the generator close to the storage battery, an energy storage anode and an energy storage cathode are respectively arranged on one side of the storage battery close to the generator, electric wires are connected between the power generation anode and the energy storage anode and between the power generation cathode and the energy storage cathode, and the energy storage anode and the energy storage cathode are connected with an electric appliance through the electric wires; a communicating pipe which penetrates through the lower separation plate, the turbine cavity and the upper separation plate and is used for communicating the water storage cavity with the water pool is annularly arrayed on one side close to the water conveying pipe, and a one-way valve is mounted at the top of the communicating pipe; the eight storage batteries are connected in series to form a larger storage battery, the types of the electric appliances can be switched, when the electric appliances are electric appliances with lower power consumption, the generator can charge the storage batteries and supply power to the electric appliances with lower power consumption, and when the electric appliances are electric appliances with higher power consumption, the generator and the storage batteries can supply power to the hydraulic pump; the utility model discloses a fountain case, including water storage chamber, suction pump, water level sensor, branch, sliding connection has the floating block between the roof in water storage chamber and the diapire, install on the floating block and be used for detecting the level sensor of water storage intracavity water level, the suction pump has set firmly on the diapire in water storage chamber, be connected with on the suction pump and run through the right wall in water storage chamber stretches out the fountain case just stretches to subaerial drain pipe, level sensor with suction pump electric connection, the suction pump also can manual control switch.

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