CN213235313U

CN213235313U - Water tank power generation device

Info

Publication number: CN213235313U
Application number: CN202021868584.1U
Authority: CN
Inventors: 李磊; 赵欢; 鲁俊; 蔡喜; 何涛涛; 胡锦波; 王冲; 郝亚超
Original assignee: Xi'an Construction Engineering Group Co ltd
Current assignee: Xi'an Construction Engineering Group Co ltd
Priority date: 2020-08-31
Filing date: 2020-08-31
Publication date: 2021-05-18
Anticipated expiration: 2030-08-31

Abstract

The utility model provides a water pitcher power generation facility belongs to power generation facility technical field, and it specifically includes that the water pitcher supports support body, water pitcher outlet pipe, hydroenergy actuating mechanism, drive mechanism and power generation mechanism, and the water pitcher setting supports the top of support body at the water pitcher, and water pitcher outlet pipe and water pitcher intercommunication, hydroenergy actuating mechanism connect on the water pitcher outlet pipe, and hydroenergy actuating mechanism and water pitcher outlet pipe intercommunication, and hydroenergy actuating mechanism passes through drive mechanism and is connected with power generation mechanism. Utilize the utility model discloses a water pitcher power generation facility can realize the water in the small-size water pitcher effective utilization of rivers kinetic energy when flowing.

Description

Water tank power generation device

Technical Field

The utility model belongs to the technical field of power generation facility, a small-size power generation facility that utilizes the kinetic energy of water in the water pitcher when naturally downflow to generate electricity is related to, specifically be a water pitcher power generation facility.

Background

In places where water sources are relatively scarce or construction sites where water sources are inconvenient to use, common domestic water or construction water is stored in a water tank in advance and is discharged from the water tank when in use, which is a common water storage method in the prior art; or for a factory with inconvenient sewage treatment, the sewage which cannot be treated needs to be stored in a water tank and transported to a sewage treatment plant for centralized treatment. The water tank can do work when being used for domestic water, building water or sewage to be treated or water stored in the water tank and used for other purposes is discharged from the water tank, and the gravitational potential energy is converted into kinetic energy. The existing water flow energy utilization is that large continuous water flow is used for generating power or converting the water flow energy into other mechanical energy, the water flow energy in a small water tank is not specially utilized well, and the water flow energy in the small water tank is naturally lost, so that the energy loss is caused.

SUMMERY OF THE UTILITY MODEL

Kinetic energy to water in the above-mentioned current water pitcher produced when discharging all is extravagant, does not have good utilization, the utility model provides a water pitcher power generation facility, it is that the kinetic energy that utilizes the water in the water pitcher to produce when discharging generates electricity, improves the utilization of energy, and concrete technical scheme is as follows:

a water tank power generation device comprises a water tank support frame body, a water tank water outlet pipe, a hydraulic energy driving mechanism, a transmission mechanism and a power generation mechanism, wherein the water tank is arranged above the water tank support frame body, the water tank water outlet pipe is communicated with the water tank, the hydraulic energy driving mechanism is connected to the water tank water outlet pipe and is communicated with the water tank water outlet pipe, and the hydraulic energy driving mechanism is connected with the power generation mechanism through the transmission mechanism;

hydroenergy actuating mechanism includes retaining shell and rotating vane, retaining shell and water pitcher outlet pipe intercommunication, rotating vane sets up in the retaining shell, drive mechanism passes the retaining shell, rotating vane's both ends are stiff end and rivers impact end respectively, the stiff end is connected on drive mechanism, the rivers impact end is just right with the rivers direction of water pitcher outlet pipe, just be provided with rivers impact groove on the rivers impact surface of rivers impact end.

Further defined, the hydraulic power drive mechanism further comprises a cleaning mechanism disposed between the water flow impact end of the rotating blade and the inner wall of the water retaining housing.

Further inject, clean mechanism includes brush, fixed plate, bar through-hole, double-screw bolt and bolt, all be provided with the bar through-hole on rotating vane's the rivers impact end and the fixed plate, the double-screw bolt passes the bar through-hole of rotating vane rivers impact end in proper order and the bar through-hole on the fixed plate is connected rotating vane and fixed plate, the both ends of double-screw bolt are passed through the fixing of bolt, the brush is connected to one side that the fixed plate is close to manger plate shell inner wall, the brush can clean the inner wall of fixed plate.

Further limited, the water tank power generation device also comprises a storage battery charging seat and a storage battery, wherein the storage battery charging seat is electrically connected with the power generation mechanism, and the storage battery is arranged on the storage battery charging seat.

Further inject, drive mechanism includes main shaft, transmission wheelset and transmission shaft, the water blocking shell is passed to the main shaft, rotating vane's stiff end is connected on the main shaft, the main shaft passes through the transmission wheelset and is connected with the transmission shaft, the transmission shaft is connected with power generation mechanism.

Further defined, the rotating blade is provided with a plurality of rotating blades, and the plurality of rotating blades are uniformly arranged along the circumferential direction of the main shaft.

Further defined, the transmission mechanism further comprises a synchronous conveyor belt connected between the transmission shaft and the power generation mechanism.

Further defined, the transmission wheel set comprises a pinion and a bull gear, the pinion is connected with the main shaft, the bull gear is meshed with the pinion, and the transmission shaft is connected with the bull gear.

Further defined, the power generation mechanism is a generator.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the utility model discloses a last hydroenergy actuating mechanism that is provided with of water pitcher power generation facility, drive mechanism and power generation mechanism, hydroenergy actuating mechanism connects on the water pitcher outlet pipe, and hydroenergy actuating mechanism and water pitcher outlet pipe intercommunication, hydroenergy actuating mechanism passes through drive mechanism and is connected with power generation mechanism, it is rotatory to drive the rotating vane in the hydroenergy actuating mechanism through the rivers in the water pitcher outlet pipe, drive hydroenergy actuating mechanism operation, rethread hydroenergy actuating mechanism drives drive mechanism and gives power generation mechanism with power transmission, it generates electricity to drive power generation mechanism, the electric energy that will produce is used for battery charging or does other power consumptions, electric energy in the battery can be used for the illumination or does other usage, energy saving, the effective utilization of rivers.

2. A cleaning mechanism is arranged between the water flow impact end of the rotating blade and the inner wall of the water retaining shell, and a brush is arranged on the cleaning mechanism and can be used for brushing and cleaning water scales adhered to the inner wall of the water retaining shell or water slag in sewage.

3. The transmission mechanism is provided with a main shaft, a transmission wheel set and a transmission shaft, the transmission wheel set is composed of a small gear and a large gear, the small gear is connected with the main shaft, the large gear is meshed with the small gear, the transmission shaft is connected with the large gear, and the small gear drives the large gear to reduce the rotating speed and improve the torque.

4. Rotating vane has a plurality ofly, and a plurality of rotating vane evenly set up along the circumference of main shaft, and a plurality of rotating vane can improve hydroenergy actuating mechanism's drive power, make the rivers power utilization efficiency in the water pitcher play water pipe higher, are provided with the rivers impact groove on the rivers impact surface of rotating vane's rivers impact end, can store a certain amount of water in the rivers impact groove, make the impact force of rivers bigger, thereby make hydroenergy actuating mechanism's drive power bigger.

Drawings

Fig. 1 is a schematic structural view of a water tank power generation device of the present invention;

FIG. 2 is a schematic diagram of the connection of the hydro-energy drive mechanism to the transmission mechanism;

FIG. 3 is a schematic diagram of the hydraulic power drive mechanism;

FIG. 4 is a schematic view of the cleaning mechanism;

FIG. 5 is a schematic view showing the structure of a water tank power plant according to embodiment 2;

the device comprises a water tank support frame 1, a water tank 2, a water tank 3, a water tank water outlet pipe 4, a water energy driving mechanism 41, a water retaining shell 42, a rotating blade 43, a cleaning mechanism 431, a brush 432, a fixing plate 433, a strip-shaped through hole 434, a stud 435, a bolt 5, a transmission mechanism 51, a main shaft 52, a pinion 53, a bull gear 53, a transmission shaft 54, a synchronous transmission belt 55, a power generation mechanism 6, a storage battery charging seat 7, a storage battery 8, a 9-water well and a water pump 10.

Detailed Description

The technical solution of the present invention is further explained below with reference to the drawings and examples, but the present invention is not limited to the embodiments described below.

The utility model relates to a water tank power generation device, including water tank support frame body 1, water tank 2, water tank outlet pipe 3, hydroenergy actuating mechanism 4, drive mechanism 5 and power generation mechanism 6, water tank 2 sets up in the top of water tank support frame body 1, and water tank outlet pipe 3 communicates with water tank 2, and hydroenergy actuating mechanism 4 is connected on water tank outlet pipe 3, and hydroenergy actuating mechanism 4 and water tank outlet pipe 3 communicate, and hydroenergy actuating mechanism 4 is connected with power generation mechanism 6 through drive mechanism 5; the hydroenergy driving mechanism 4 comprises a water blocking shell 41 and a rotating blade 42, the water blocking shell 41 is communicated with the water outlet pipe 3 of the water tank, the rotating blade 42 is arranged in the water blocking shell 41, the transmission mechanism 5 penetrates through the water blocking shell 41, two end parts of the rotating blade 42 are respectively a fixed end and a water flow impact end, the fixed end is connected on the transmission mechanism 5, the water flow impact end is opposite to the water flow direction of the water outlet pipe 3 of the water tank, a water flow impact groove is arranged on the water flow impact surface of the water flow impact end, the distance between the water impact point height of the rotating blade 42 and the water outlet height of the water tank 2 is 3-10 meters, generally 5 meters, the water outlet pipe 3 of the thick water tank, the water impact point height of the rotating blade 42 and the water outlet height of the water tank 2 can be relatively lower, the water outlet pipe 3 of the thin water tank is higher, the water impact point height of the rotating blade 42 and the, the hydraulic power drive mechanism 4 can be driven.

The water power driving mechanism 4 further includes a cleaning mechanism 43, and the cleaning mechanism 43 is disposed between the water flow impact end of the rotary blade 42 and the inner wall of the water blocking housing 41. The cleaning mechanism 43 comprises a brush 431, a fixing plate 432, a strip-shaped through hole 433, a stud 434 and a bolt 435, the rotating end of the rotating blade 42 and the fixing plate 432 are respectively provided with the strip-shaped through hole 433, the stud 434 sequentially penetrates through the strip-shaped through hole 433 of the water flow impact end of the rotating blade 42 and the strip-shaped through hole 433 of the fixing plate 432 to connect the rotating blade 42 with the fixing plate 432, the two ends of the stud 434 are fixed through the bolt 435, one side of the fixing plate 432 close to the inner wall of the water blocking shell 41 is connected with the brush 431, and the inner wall of the fixing plate 432 can.

The water tank power generation device also comprises a storage battery charging seat 7 and a storage battery 8, wherein the storage battery charging seat 7 is electrically connected with the power generation mechanism 6, and the storage battery 8 is arranged on the storage battery charging seat 7.

The transmission mechanism 5 comprises a main shaft 51, a transmission wheel set and a transmission shaft 54, the main shaft 51 penetrates through the water blocking shell 41, the fixed end of the rotating blade 42 is connected to the main shaft 51, the main shaft 51 is connected with the transmission shaft 54 through the transmission wheel set, and the transmission shaft 54 is connected with the power generation mechanism 6. The rotary blade 42 is plural, and the plural rotary blades 42 are uniformly arranged along the circumferential direction of the main shaft 51. The transmission mechanism 5 further comprises a timing belt 55 connected between the transmission shaft 54 and the power generating mechanism 6. The driving wheel set comprises a small gear 52 and a large gear 53, wherein the small gear 52 is connected with the main shaft 51, the large gear 53 is meshed with the small gear 52, and the driving shaft 54 is connected with the large gear 53.

The power generation mechanism 6 is a generator.

Example 1

Referring to fig. 1, the water tank power generation device of this embodiment, it includes water tank support frame body 1, water tank 2, water tank outlet pipe 3, hydroenergy actuating mechanism 4, drive mechanism 5, power generation mechanism 6, battery charging seat 7 and battery 8, power generation mechanism 6 is the generator, water tank 2 is installed in the top of water tank support frame body 1, water tank outlet pipe 3 communicates with water tank 2, hydroenergy actuating mechanism 4 communicates with water tank outlet pipe 3, hydroenergy actuating mechanism 4 is connected with power generation mechanism 6 through drive mechanism 5, battery charging seat 7 is connected with power generation mechanism 6 electricity, battery 8 is installed on battery charging seat 7, water tank 2 is filled with the sewage of pending in the mill. The water outlet pipe 3 of the water tank is a 6-minute pipe, and the distance from the water impact point height of the rotating blade 42 to the water outlet height of the water tank 2 is 8 meters.

Referring to fig. 2 to 4, the hydraulic power driving mechanism includes a

water blocking housing

41, 6 rotary blades 42 and cleaning mechanisms 43, the cleaning mechanisms include brushes 431, fixing plates 432, strip-shaped through holes 433, studs 434 and bolts 435; the transmission mechanism 5 comprises a main shaft 51, a transmission wheel set, a transmission shaft 54 and a synchronous conveyor belt 55, wherein the transmission wheel set consists of a small gear 52 and a large gear 53; the water blocking shell 41 is communicated with the water outlet pipe 3 of the water tank, the rotating blades 42 are provided with fixed ends and water flow impact ends, the main shaft 51 penetrates through the water blocking shell 41, the fixed ends of the 6 rotating blades 42 are uniformly arranged along the circumferential direction of the main shaft 51, the water flow impact ends of the rotating blades 42 are opposite to the water flow direction of the water outlet pipe 3 of the water tank, a water flow impact groove is formed in the water flow impact surface of the water flow impact ends, and a certain amount of water can be stored in the water flow impact groove, so that the impact force of the water flow is larger; be provided with bar through-hole 433 on the water impact is served the face relative with water impact groove, be provided with on fixed plate 432 with water impact and serve bar through-hole 433 corresponding with bar through-hole 433 on, the double-screw bolt 434 passes the bar through-hole 433 of water impact end on rotary blade 42 and the bar through-hole 433 on fixed plate 432 in proper order and is connected rotary blade 42 with fixed plate 432, two expansion ends of double-screw bolt 434 pass through bolt 435 fixedly, fixed plate 432 is connected with brush 431 in the one side that is close to the manger plate shell 41 inner wall, brush 431 can scrub, clean the inner wall of fixed plate 432. The main shaft 51 is connected with the small gear 52, the large gear 53 is meshed with the small gear 52, one end of the transmission shaft 54 is meshed with the large gear 53, the other end of the transmission shaft 54 is connected with one end of the synchronous conveyor belt 55, and the other end of the synchronous conveyor belt 55 is connected with the power input end of the power generation mechanism 6.

The working principle of the water tank power generation device of the embodiment is as follows: when sewage to be treated in the water tank 2 flows out through the water tank water outlet pipe 3, the sewage falls on the rotating blade 42 and in the water flow impact groove of the water flow impact end, the rotating blade 42 can be driven to rotate through water flow, the rotating blade 42 is driven to rotate to drive the main shaft 51 to rotate, the main shaft 51 transmits the rotating power to the power input end of the power generation mechanism 6 through the transmission wheel set, the transmission shaft 54 and the synchronous transmission belt 55 in sequence, the power generation mechanism 6 starts to generate electric energy, meanwhile, the power generation mechanism transmits the generated electric energy to the storage battery charging seat 7, the storage battery charging seat 7 charges the storage battery 8, and the electric energy is stored; the brush 431 brushes and cleans the inner wall of the fixed plate 432 while the rotary blade 42 rotates.

Example 2

Referring to fig. 5, the water tank power generation device of this embodiment includes a water tank support frame 1, a water tank 2, a water tank outlet pipe 3, a hydraulic energy driving mechanism 4, a transmission mechanism 5, a power generation mechanism 6, a storage battery charging seat 7, a storage battery 8, a well 9 and a water pump 10, where the power generation mechanism 6 is a power generator, the water tank 2 is installed above the water tank support frame 1, the water tank outlet pipe 3 is communicated with the water tank 2, the hydraulic energy driving mechanism 4 is communicated with the water tank outlet pipe 3, the hydraulic energy driving mechanism 4 is connected with the power generation mechanism 6 through the transmission mechanism 5, the storage battery charging seat 7 is electrically connected with the power generation mechanism 6, the storage battery 8 is installed on the storage battery charging seat 7, the water pump 10 is placed in the well 10, the water pump 10 is. The water outlet pipe 3 of the water tank is a 1-inch pipe, and the distance from the water impact point height of the rotating blade 42 to the water outlet height of the water tank 2 is 5 meters.

The hydroenergy driving mechanism comprises a

water retaining shell

41, 8 rotating blades 42 and cleaning mechanisms 43, wherein the number of the rotating blades 42 is 8, and the cleaning mechanisms comprise brushes 431, fixing plates 432, strip-shaped through holes 433, studs 434 and bolts 435; the transmission mechanism 5 comprises a main shaft 51, a transmission wheel set, a transmission shaft 54 and a synchronous conveyor belt 55, wherein the transmission wheel set consists of a small gear 52 and a large gear 53; the water blocking shell 41 is communicated with the water tank water outlet pipe 3, the rotating blades 42 are provided with fixed ends and water flow impact ends, the main shaft 51 penetrates through the water blocking shell 41, the fixed ends of the 8 rotating blades 42 are uniformly arranged along the circumferential direction of the main shaft 51, the water flow impact ends of the rotating blades 42 are opposite to the water flow direction of the water tank water outlet pipe 3, a water flow impact groove is formed in the water flow impact surface of the water flow impact ends, and a certain amount of water can be stored in the water flow impact groove, so that the impact force of the water flow is larger; be provided with bar through-hole 433 on the water impact is served the face relative with water impact groove, be provided with on fixed plate 432 with water impact and serve bar through-hole 433 corresponding with bar through-hole 433 on, the double-screw bolt 434 passes the bar through-hole 433 of water impact end on rotary blade 42 and the bar through-hole 433 on fixed plate 432 in proper order and is connected rotary blade 42 with fixed plate 432, two expansion ends of double-screw bolt 434 pass through bolt 435 fixedly, fixed plate 432 is connected with brush 431 in the one side that is close to the manger plate shell 41 inner wall, brush 431 can scrub, clean the inner wall of fixed plate 432. The main shaft 51 is connected with the small gear 52, the large gear 53 is meshed with the small gear 52, one end of the transmission shaft 54 is meshed with the large gear 53, the other end of the transmission shaft 54 is connected with one end of the synchronous conveyor belt 55, and the other end of the synchronous conveyor belt 55 is connected with the power input end of the power generation mechanism 6.

The working principle of the water tank power generation device of the embodiment is as follows: in the place where the water source is relatively lacked or the construction site where the water source is inconvenient to use, the well water in the water well 9 can be stored in the water tank 2 through the water pump 10 in advance, when the well water in the water tank 2 flows out through the water tank water outlet pipe 3, the well water falls on the water flow impact end of the water flow impact end on the rotating blade 42 and the water flow impact groove of the water flow impact end, the rotating blade 42 is driven to rotate through the water flow, the main shaft 51 is driven to rotate through the rotation of the rotating blade 42, the main shaft 51 transmits the rotating power to the power input end of the power generation mechanism 6 through the transmission wheel set, the transmission shaft 54 and the synchronous transmission belt 55 in sequence, the power generation mechanism 6 starts to generate electric energy, meanwhile, the power generation mechanism transmits the generated electric energy to the storage battery charging seat 7, and the storage battery; the brush 431 brushes and cleans the inner wall of the fixed plate 432 while the rotary blade 42 rotates.

Claims

1. The water tank power generation device is characterized by comprising a water tank supporting frame body (1), a water tank (2), a water tank water outlet pipe (3), a water energy driving mechanism (4), a transmission mechanism (5) and a power generation mechanism (6), wherein the water tank (2) is arranged above the water tank supporting frame body (1), the water tank water outlet pipe (3) is communicated with the water tank (2), the water energy driving mechanism (4) is connected onto the water tank water outlet pipe (3), the water energy driving mechanism (4) is communicated with the water tank water outlet pipe (3), and the water energy driving mechanism (4) is connected with the power generation mechanism (6) through the transmission mechanism (5);

hydroenergy actuating mechanism (4) are including manger plate shell (41) and rotating vane (42), manger plate shell (41) and water pitcher outlet pipe (3) intercommunication, rotating vane (42) set up in manger plate shell (41), manger plate shell (41) are passed in drive mechanism (5), the both ends of rotating vane (42) are stiff end and water impact end respectively, the stiff end is connected on drive mechanism (5), the water impact end is just right with the rivers direction of water pitcher outlet pipe (3), just be provided with water impact groove on the water impact face of water impact end.

2. The water tank power plant as claimed in claim 1, characterized in that the water energy drive means (4) further comprise cleaning means (43), the cleaning means (43) being arranged between the water flow impact ends of the rotary blades (42) and the inner wall of the water retaining shell (41).

3. The water tank power generation device of claim 2, wherein the cleaning mechanism (43) comprises a brush (431), a fixing plate (432), a strip-shaped through hole (433), a stud (434) and a bolt (435), the strip-shaped through hole (433) is formed in the water flow impact end of the rotating blade (42) and the fixing plate (432), the stud (434) sequentially penetrates through the strip-shaped through hole (433) in the water flow impact end of the rotating blade (42) and the strip-shaped through hole (433) in the fixing plate (432) to connect the rotating blade (42) with the fixing plate (432), two ends of the stud (434) are fixed through the bolt (435), the brush (431) is connected to one side of the fixing plate (432) close to the inner wall of the water blocking shell (41), and the brush (431) can clean the inner wall of the fixing plate (432).

4. The water tank power generation device according to any one of claims 1 to 3, further comprising a battery charging seat (7) and a battery (8), wherein the battery charging seat (7) is electrically connected with the power generation mechanism (6), and the battery (8) is mounted on the battery charging seat (7).

5. The water tank power generation device of claim 4, wherein the transmission mechanism (5) comprises a main shaft (51), a transmission wheel set and a transmission shaft (54), the main shaft (51) penetrates through the water blocking shell (41), the fixed end of the rotating blade (42) is connected to the main shaft (51), the main shaft (51) is connected with the transmission shaft (54) through the transmission wheel set, and the transmission shaft (54) is connected with the power generation mechanism (6).

6. The water tank power generation device of claim 5, wherein the number of the rotary blades (42) is plural, and the plural rotary blades (42) are uniformly arranged along the circumferential direction of the main shaft (51).

7. The water tank power plant as claimed in claim 5, characterized in that the drive mechanism (5) further comprises a timing belt (55) connected between the drive shaft (54) and the power plant (6).

8. The water tank power generation device of claim 7, wherein the transmission wheel set comprises a small gear (52) and a large gear (53), the small gear (52) is connected with the main shaft (51), the large gear (53) is meshed with the small gear (52), and the transmission shaft (54) is connected with the large gear (53).

9. The water tank power plant as claimed in claim 8, characterized in that the power plant (6) is a generator.