CN217630221U - Energy-concerving and environment-protective water resource utilizes device - Google Patents

Abstract

The utility model discloses an energy-concerving and environment-protective water resource utilization device relates to the water utilization field, including storing the main tank, it has drainage pipe to peg graft to store a side level of main tank, the both sides limit symmetry of storing the main tank has seted up the overflow groove, the both sides limit symmetry oblique weld of storing the main tank has the direction pipeline, the top surface bolted connection of direction pipeline has fixed STB, outwards discharges through the overflow groove when the water is more, can let inside water outwards discharge at drainage pipe after opening through the extraction pump body storing the inside water of main tank, plants to outside green and waters the operation of watering, makes the space that can not occupy present ground at the structure of filling in the formula, does not influence other activities on ground, can also generate electricity when the water is collected simultaneously and retrieve the recycle, lets the resource maximize, and need not waste extra water resource when irrigating again and use, also is a recycle and effectual safeguard measure.

Description

Energy-concerving and environment-protective water resource utilizes device

Technical Field

The utility model relates to a water resource utilization technical field specifically is an energy-concerving and environment-protective water resource utilization device.

Background

On earth, water, which is directly or indirectly available to humans, is an important component of natural resources. The natural water resources include river runoff, underground water, snow and glaciers, lake water, marsh water and sea water. The water quality is divided into fresh water and salty water. With the development of science and technology, water utilized by human beings is increased, such as seawater desalination, artificial catalytic precipitation, utilization of southern great land ice, and the like.

What adopt to present water resource reuse concentrates the rainwater and stores, then extract when needs are irrigated and use, make and not maximize utilize the water resource, still need the maintenance of electric power when the extraction water simultaneously, the waste of certain electric power has been caused, be not conform to energy-concerving and environment-protective guideline, and place when some water are stored and install inside the box on ground, because the great comparison occupation space of the volume of box, caused this piece just can't carry out other activities, be unfavorable for the make full use of requirement in soil.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-concerving and environment-protective water resource utilization equipment, what put forward in solving above-mentioned background art is to the rainwater concentration storage to what present water resource recycle adopted, then extract out the use when needs are irrigated, make and not maximize utilize the water resource, still need maintaining of electric power when extracting the water simultaneously, the waste of certain electric power has been caused, be not conform to energy-concerving and environment-protective square needle, and just place when some waters are stored and install inside the box on ground, because the great comparison occupation space of the volume of box, caused this place just can't carry out other activities, be unfavorable for the problem of the make full use of requirement in soil.

In order to achieve the above object, the utility model provides a following technical scheme:

the energy-saving and environment-friendly water resource utilization device comprises a storage main box, wherein a drainage pipeline is horizontally inserted into one side edge of the storage main box in an inserted mode, overflow grooves are symmetrically formed in two side edges of the storage main box, guide pipelines are symmetrically and obliquely welded to the two side edges of the storage main box, a fixed top box is connected to the top face of each guide pipeline through a bolt, a fixed end box is horizontally welded to one end, away from the storage main box, of each guide pipeline, a sealing cover plate is horizontally clamped to the top face of each fixing end box, a water leakage channel is uniformly formed in the top face of each sealing cover plate, an isolation screen plate is horizontally and fixedly clamped to the inner side edge of each water leakage channel, a side through groove is obliquely formed in one side edge of each fixing end box, a micro generator is connected to the inner side edge of each fixing top box through a bolt, a rotating shaft is horizontally inserted into the top face of each guide pipeline, a stirring plate is uniformly welded to the outer side edge of the rotating shaft, a transmission gear is embedded into the side wall of each fixing top box, a main gear is embedded into the side wall of each fixing top box, two side edges of each storage main box are symmetrically and obliquely connected with feeding side grooves, the inner side edges of the storage main box, the inner side wall of the storage main box is connected with a bottom face of the bottom of the box, and connected with a bolt, and a box body, and a pump body are connected with the bottom of the box body, and a pump body.

As a preferred embodiment of the present invention: one end of the drainage pipeline horizontally penetrates through the side wall of the storage main box and extends into the storage main box, the extending end is fixedly inserted and arranged at the position of the output end of the pumping pump body, the overflow grooves are symmetrically and horizontally arranged at the positions, close to the bottom surface of one end of the guide pipeline, of the two side edges of the storage main box, and the interior of each overflow groove is communicated with the interior of the storage main box.

As a preferred embodiment of the present invention: the number of the guide pipelines is two, one ends of the two guide pipelines are obliquely and downwards butted and arranged at the opening end of the feeding side groove, the insides of the two guide pipelines and the insides of the feeding side groove are kept to be in through connection, the fixed top box is buckled and arranged at the center of the top surface of the guide pipelines, and the bottom opening end is butted and arranged at the top opening position of the through connection top groove.

As a preferred embodiment of the present invention: the horizontal clamping connection of the sealing cover plate is arranged in a top clamping groove of the fixed end box, one end of the guide pipeline is obliquely and upwards fixedly arranged at the position of an opening end of the side through groove, the side through groove is obliquely opened and arranged at the position of the bottom surface of one side of the fixed end box, and the output end of the micro-generator is horizontally and fixedly inserted and arranged at the central position of the main gear.

As a preferred embodiment of the present invention: lead to and connect the apical groove level to set up the top surface central point who connects the apical groove and put at the direction pipeline, the axis of rotation level sets up the inboard side position that is close to the logical apical groove, and the number of stirring the board is the polylith, and the polylith stirs the board and is the annular and evenly arranges the setting on the outside limit of axis of rotation, stirs the extension of board and to lead to the inboard side in apical groove, and the one end level of axis of rotation is fixed to be pegged graft and is set up the central point of putting at transmission gear, and the toothing sets up between master gear and the transmission gear.

As a preferred embodiment of the present invention: the feeding side grooves are symmetrically arranged at the top ends of the two sides of the storage main box, and through holes are uniformly formed in the side edge of the bottom box body.

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

the utility model discloses a to store the main tank landfill in the darker position in ground, then extend to appointed position in the outside slant through the direction pipeline after, bury fixed end box at the appointed position, make fixed end box be in the lower position of relief, accomplish the installation operation, enter into the inside of fixed end box through the channel that leaks after rainwater falls, and make under the isolation of isolation otter board and filter the residue, then the water flows downwards along the direction pipeline, carry out the impact to it when dialling the board, let the dialling the board and drive the rotation of axis of rotation, thereby make transmission gear drive the rotation of master gear, make under the drive of master gear miniature generator rotate and carry out the generating operation, the electricity that sends is stored and is left and to carry out road lighting etc. and use, and the water enters into the inside storage effect of storing the main tank from the feeding side groove after dialling the board, through the excessive groove outwards discharge when the water is more, can let the water inside water resource of inside after opening the extraction pump body through storing the main tank outside discharge, the extra water of filling of the formula of burying makes the ground can not carry out the waste of other ground water resource recovery measures again, and the waste of not utilizing water resource again, and not influence the waste of the water resource when the water is carried out.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic perspective view of an energy-saving and environment-friendly water resource utilization device;

FIG. 2 is a schematic view of the front view section of a fixed end box of an energy-saving and environment-friendly water resource utilization device;

FIG. 3 is a schematic structural view of a connection detail of a front view section of a guide pipe of an energy-saving and environment-friendly water resource utilization device;

FIG. 4 is a schematic structural diagram of a side view section connection detail of a guide pipeline of an energy-saving and environment-friendly water resource utilization device;

fig. 5 is a schematic structural view of the front section connection details of the storage main box of the energy-saving and environment-friendly water resource utilization device.

In the figure: 1. storing the main box; 2. a water discharge pipeline; 3. an overflow groove; 4. a guide duct; 5. fixing the top box; 6. fixing the end box; 7. sealing the cover plate; 8. a water leakage channel; 9. isolating the screen plate; 10. a side through groove; 11. a micro-generator; 12. connecting with the top groove; 13. a rotating shaft; 14. a poking plate; 15. a transmission gear; 16. a main gear; 17. a feed side channel; 18. a bottom box body; 19. and pumping the pump body.

Detailed Description

Referring to fig. 1-2, in an embodiment of the present invention, an energy-saving and environment-friendly water resource utilization device includes a main storage box 1, a drainage pipe 2 is horizontally inserted into one side of the main storage box 1, overflow slots 3 are symmetrically formed on two sides of the main storage box 1, one end of the drainage pipe 2 horizontally penetrates through a side wall of the main storage box 1 and extends to the inside, the extended end is fixedly inserted and arranged at the output end position of the extraction pump body 19, the overflow grooves 3 are symmetrically and horizontally arranged at the bottom surface position of one end of the two side edges of the main storage box 1 close to the guide pipeline 4, the inner part of the overflow groove 3 is communicated with the inner part of the main storage box 1, two guide pipelines 4 are symmetrically and obliquely welded on the two side edges of the main storage box 1, the top surface of each guide pipeline 4 is connected with a fixed top box 5 through bolts, the number of the guide pipelines 4 is two, one end of each of the two guide pipelines 4 is obliquely and downwards butted with the opening end of the feeding side groove 17, the interiors of the two guide pipelines 4 are communicated with the interior of the feeding side groove 17, the fixed top box 5 is buckled with the center of the top surface of each guide pipeline 4, the bottom opening end is butted and arranged at the top opening position communicated with a top groove 12, a fixed end box 6 is horizontally welded at one end of the guide pipeline 4 far away from the main storage box 1, a sealing cover plate 7 is horizontally clamped on the top surface of the fixed end box 6, a water leakage channel 8 is uniformly arranged on the top surface of the sealing cover plate 7, an isolation screen plate 9 is horizontally and fixedly clamped on the inner side edge of the water leakage channel 8, a side through groove 10 is obliquely arranged on one side edge of the fixed end box 6, the sealing cover plate 7 is horizontally clamped and arranged in the top clamping groove of the fixed end box 6, one end of the guide pipeline 4 is obliquely and upwards fixedly arranged at the opening end position of the side through groove 10, and the side through groove 10 is obliquely arranged at the bottom surface position on one side edge of the fixed end box 6;

referring to fig. 3-5, in an embodiment of the present invention, an energy-saving and environment-friendly water resource utilization apparatus, wherein an inner side of a fixed top box 5 is bolted with a micro-generator 11, an output end of the micro-generator 11 is horizontally and fixedly inserted into a central position of a main gear 16, a top surface of a guide pipeline 4 is horizontally provided with a through top slot 12, an inner side of the guide pipeline 4 is horizontally inserted with a rotation shaft 13, an outer side of the rotation shaft 13 is uniformly welded with a poking plate 14, a side wall of the guide pipeline 4 is embedded with a transmission gear 15, a side wall of the fixed top box 5 is embedded with a main gear 16, the through top slot 12 is horizontally arranged at a central position of the top surface of the guide pipeline 4, the rotation shaft 13 is horizontally and fixedly inserted into a central position of the transmission gear 15, the poking plates 14 are provided in a plurality of blocks, the poking plates 14 are annularly and uniformly arranged on the outer side of the rotation shaft 13, the poking plate 14 extends to the through top slot 12, one end of the poking plate is horizontally and fixedly inserted into the central position of the transmission gear 15, teeth are arranged between the main gear 16 and the transmission gear 15, a storage box 1 is provided with oblique side slots 17, two side ends of the storage box 1, two side bolts 18 are symmetrically arranged at two sides of the storage box body, and a bottom box 18 is symmetrically provided with a bottom through hole 17, and a bottom box body, and a bottom box body 18 is symmetrically arranged at two sides of the storage box, and a bottom box body 18, and a bottom box is symmetrically arranged at two sides of the storage box.

The components are all standard parts or parts known to the person skilled in the art, the structure and the principle of which are known to the person skilled in the art from technical manuals or by routine experimentation.

The utility model discloses a theory of operation is:

the main storage tank 1 is buried in a deep position on the ground, and then extends upwards to a specified position in an inclined way through the guide pipeline 4, the fixed end box 6 is buried in the specified position, so that the fixed end box 6 is in a position with a lower terrain, the installation operation is completed, rainwater enters the inside of the fixed end box 6 through the water leakage channel 8 after falling down, residues are filtered under the isolation of the isolation screen 9, then the water flows downwards along the guide pipeline 4, the stirring plate 14 performs impact action when passing through the stirring plate 14, the stirring plate 14 drives the rotation shaft 13 to rotate, so that the transmission gear 15 drives the main gear 16 to rotate, the micro generator 11 rotates under the drive of the main gear 16 to perform power generation operation, the generated electricity is stored and can be used for road illumination and the like, the water enters the internal storage function of the main storage tank 1 from the feeding side groove 17 after passing through the stirring plate 14, the water is discharged outside through the outer overflow groove 3 when the water is more, and the water discharge pipeline 2 is irrigated outside the water by pumping the water body.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The energy-saving and environment-friendly water resource utilization device comprises a main storage box (1) and is characterized in that a drainage pipeline (2) is horizontally inserted into one side edge of the main storage box (1), overflow grooves (3) are symmetrically formed in two side edges of the main storage box (1), guide pipelines (4) are symmetrically and obliquely welded to two side edges of the main storage box (1), a top surface of each guide pipeline (4) is connected with a fixed top box (5) through a bolt, a fixed end box (6) is horizontally welded to one end, far away from the main storage box (1), of each guide pipeline (4), a sealing cover plate (7) is horizontally clamped to the top surface of each fixed end box (6), a water leakage channel (8) is uniformly formed in the top surface of each sealing cover plate (7), an isolation screen plate (9) is horizontally and fixedly clamped to the inner side edge of each channel (8), a side through groove (10) is formed in the insertion connection of one side edge of each fixed end box (6), a microgenerator (11) is connected to the bolt of the fixed top edge of each top box (5), a microgenerator (11) is horizontally arranged on the top surface of each guide pipeline (4), a rotating shaft is communicated with a top groove (12), a rotating shaft is arranged on the insertion side edge of each guide pipeline (4), a transmission plate (13) and a transmission plate (15) is horizontally welded to the outer side wall (13), and a transmission plate (14) is uniformly arranged on the outer side wall (13), the side wall of the fixed top box (5) is embedded with a main gear (16), two side edges of the main storage box (1) are symmetrically and obliquely provided with feeding side grooves (17), the bottom surface of the inner side of the main storage box (1) is connected with a bottom box body (18) through bolts, and the inner side edge of the bottom box body (18) is connected with an extraction pump body (19) through bolts.

2. The energy-saving and environment-friendly water resource utilization device as claimed in claim 1, wherein one end of the drainage pipeline (2) horizontally penetrates through the side wall of the main storage tank (1) and extends to the inside, the extending end is fixedly inserted and arranged at the output end position of the extraction pump body (19), the overflow grooves (3) are symmetrically and horizontally arranged at the bottom positions of two side edges of the main storage tank (1) close to one end of the guide pipeline (4), and the inside of the overflow groove (3) is communicated with the inside of the main storage tank (1).

3. The energy-saving and environment-friendly water resource utilization device as claimed in claim 1, wherein the number of the guide pipes (4) is two, one end of each of the two guide pipes (4) is obliquely and downwards butted against the open end of the feeding side groove (17), the insides of the two guide pipes (4) and the insides of the feeding side grooves (17) are in through connection, the fixed top box (5) is arranged at the center of the top surface of the guide pipe (4) in a buckled manner, and the bottom open end is butted against the top open position of the through top groove (12).

4. An energy-saving and environment-friendly water resource utilization device as claimed in claim 1, wherein the sealing cover plate (7) is horizontally clamped inside a top clamping groove of the fixed end box (6), one end of the guide pipeline (4) is obliquely and upwardly fixed at the opening end position of the side through groove (10), the side through groove (10) is obliquely arranged at the bottom surface of one side of the fixed end box (6), and the output end of the micro-generator (11) is horizontally fixed and inserted at the central position of the main gear (16).

5. The energy-saving and environment-friendly water resource utilization device as claimed in claim 1, wherein the connecting top groove (12) is horizontally arranged at the center of the top surface of the guide pipe (4), the rotating shaft (13) is horizontally arranged at the position close to the inner side edge of the connecting top groove (12), the number of the poking plates (14) is multiple, the multiple poking plates (14) are uniformly arranged at the outer side edge of the rotating shaft (13) in an annular manner, the poking plates (14) extend to the inner side edge of the connecting top groove (12), one end of the rotating shaft (13) is horizontally and fixedly inserted and arranged at the center of the transmission gear (15), and the main gear (16) and the transmission gear (15) are in tooth joint.

6. The energy-saving and environment-friendly water resource utilization device as claimed in claim 1, wherein the feeding side grooves (17) are symmetrically arranged at the top ends of two sides of the main storage box (1), and through holes are uniformly arranged on the side of the bottom box body (18).

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