CN114908859A - Green energy-saving building capable of recycling rainwater - Google Patents

Abstract

The utility model relates to a green energy-saving building for rainwater recycling, which relates to the field of rainwater recycling technology, and comprises a pre-buried underground settling tank, a water inlet pipeline communicated with the settling tank, a rainwater grate arranged on the water inlet pipeline, a water storage tank arranged on one side of the settling tank, a recycling pipeline and a water pump arranged between the water storage tank and the settling tank, a filter screen arranged on the recycling pipeline, a dredging bucket arranged on the inner bottom wall of the settling tank, a dredging mechanism arranged between the settling tank and the dredging bucket and used for pushing the dredging bucket to horizontally move along the inner bottom wall of the settling tank, and a lifting mechanism arranged on the settling tank and used for driving the dredging bucket to upwards move to the outer side of the settling tank; the top of one side that the settling tank is close to elevating system is opened, just the top of settling tank communicates to municipal drainage pipe. This application has the effect of rejecting tiny impurity in the rainwater, the subsequent make full use of the rainwater of being convenient for, energy saving and consumption reduction improves the utilization ratio of water resource.

Description

Green energy-saving building capable of recycling rainwater

Technical Field

The application relates to the field of rainwater recycling technology, in particular to a green energy-saving building for rainwater recycling.

Background

Water is an important resource for human life and is the most important component of organisms, so that the improvement of the utilization rate of water resources is particularly important, wherein if the rainwater resources can be fully utilized, the utilization rate of the water resources is greatly improved,

at present, can replace the running water with the rainwater of retrieving to water green planting, wash vehicle, wash the closestool, rinse the mop etc to can save a large amount of water resources, energy saving and consumption reduction, but, impurity such as a large amount of stones, silt is adulterated in the rainwater, hardly reject tiny impurity behind the prefiltering through the rainwater grate, retrieve the rainwater behind the prefiltering to the storage water tank after, if do not reject tiny impurity and influence the subsequent normal use of rainwater easily.

Disclosure of Invention

In order to reject tiny impurity in the rainwater, the subsequent make full use of rainwater of being convenient for, energy saving and consumption reduction improves the utilization ratio of water resource, this application provides a green energy-saving building that rainwater was retrieved and is recycled.

The application provides a pair of green energy-saving building that rainwater was retrieved and is recycled adopts following technical scheme:

a green energy-saving building for recycling rainwater comprises a settling tank pre-buried underground, a water inlet pipeline communicated with the settling tank, a rainwater grate arranged on the water inlet pipeline, a water storage tank arranged on one side of the settling tank, a recycling pipeline and a water pump arranged between the water storage tank and the settling tank, a filter screen arranged on the recycling pipeline, a dredging bucket arranged on the inner bottom wall of the settling tank, a dredging mechanism arranged between the settling tank and the dredging bucket and used for pushing the dredging bucket to horizontally move along the inner bottom wall of the settling tank, and a lifting mechanism arranged on the settling tank and used for driving the dredging bucket to upwards move to the outer side of the settling tank;

the top of one side that the settling tank is close to elevating system is opened, just the top of settling tank communicates to municipal drainage pipe.

By adopting the technical scheme, when a worker recycles rainwater through a green energy-saving building, the rainwater is firstly collected to one side of the water inlet pipeline, then the rainwater grate filters larger impurities such as stones and mud in the rainwater, then the rainwater enters the settling tank for temporary storage, after the rainwater is kept stand for a period of time, the finer impurities in the rainwater can be deposited to the inner bottom wall of the settling tank, the worker can make clear water on the upper layer in the settling tank enter the water storage tank through the recovery pipeline through the water suction pump, meanwhile, the filter screen on the recovery pipeline prevents the fine impurities from entering the water storage tank, the purity of water resources in the water storage tank is further improved, the water storage tank is communicated with partial water utilization equipment in households of residents nearby, when the residents perform green planting irrigation, traffic tools cleaning, toilets, mop washing and the like, the recovered rainwater is used for replacing tap water, thereby saving a large amount of water resources, saving energy and reducing consumption; for sludge impurities deposited on the bottom wall in the settling tank, workers need to clean the sludge regularly, when the sludge is cleaned, the dredging mechanism is started firstly, the dredging mechanism drives the dredging bucket to shovel the sludge adhered to the bottom wall in the settling tank into the dredging bucket, the dredging bucket is moved to one side of the lifting mechanism, then the lifting mechanism is connected with the dredging bucket and moves the dredging bucket upwards to the outer side of the settling tank, and then the workers clean the impurities in the dredging bucket; after the impurities in the dredging bucket are removed, the dredging bucket is moved to the initial position through the lifting mechanism and the dredging mechanism; the staff has not only realized the recycle of rainwater through green energy-saving building, and rejected thin and small impurity in the rainwater, the subsequent make full use of the rainwater of being convenient for, make near resident can utilize the rainwater of retrieving to replace the running water to water green planting, wash vehicle, wash the closestool, rinse the mop etc. thereby can save a large amount of water resources, energy saving and consumption reduction, simultaneously through desilting mechanism, desilting scraper bowl and elevating system are regularly to the automatic clearance of the impurity in the setting tank, the storage space of storage water tank has been improved.

Optionally, the dredging mechanism comprises two pushing frames arranged inside the settling tank, two driving screws respectively connected to the pushing frames in a threaded manner, a linkage assembly arranged at one end of each of the two driving screws and used for driving the two driving screws to synchronously rotate, a guide assembly arranged inside the settling tank and used for guiding and limiting the movement of the two pushing frames, and an anti-falling part arranged between the two pushing frames and used for enabling the pushing frames to be not easily separated from the dredging bucket and the pushing frames when the pushing frames drive the dredging bucket to move; two the drive screw is parallel to each other, just drive screw's both ends are connected with the setting tank rotation.

Through adopting above-mentioned technical scheme, when driving the propelling movement frame through desilting mechanism and removing, at first the staff starts the linkage subassembly, the linkage subassembly drives two drive screw and rotates in step, two drive screw can drive two propelling movement frames respectively and remove under the guide effect of direction subassembly, two propelling movement frames combine anticreep spare to drive the desilting scraper bowl and remove to silt on the bottom wall in the setting tank can be shoveled and collected to the scraper bowl in desilting scraper bowl opening one side.

Optionally, the linkage assembly includes two chain wheels respectively sleeved on the end portions of the driving screws, a chain meshed with the two chain wheels at the same time, and a driving motor arranged at one end of one of the driving screws; the chain wheel is fixedly connected with the driving screw rod.

By adopting the technical scheme, when the linkage assembly drives the two driving screws to synchronously rotate, firstly, a worker starts the driving motor, then an output shaft of the driving motor drives one of the driving screws to rotate, the driving screw drives a chain wheel fixedly connected with the driving screw to rotate, the chain wheel drives the other chain wheel to rotate through a chain, so that the other chain wheel drives the driving screw fixedly connected with the chain wheel to synchronously rotate, and further, the synchronous motion of the two driving screws is realized; the controllable two drive screw synchronous rotations of linkage subassembly and stop not only make the staff operation more convenient, and two pushing frame are to the synchronous application of force in both sides of desilting scraper bowl length direction moreover to make the desilting scraper bowl be difficult for taking place the incline, remove more stably.

Optionally, the guide assembly comprises a support plate fixedly arranged on the inner top wall of the settling tank, a connecting plate fixedly arranged between the two pushing frames, and a guide rod fixedly arranged between the support plate and the inner side wall of the settling tank;

the connecting plate is connected with the guide rod in a sliding mode and is perpendicular to the guide rod, and the connecting plate is located on one side, away from the driving screw, of the pushing frame.

Through adopting above-mentioned technical scheme, can drive rather than fixed connection's connecting plate when promoting the frame and remove, the connecting plate is located the guide bar and slides on, and the connecting plate is located the one side that the drive screw was kept away from to the promotion frame simultaneously to the atress is more even about making the promotion frame, and difficult emergence incline, and the below that makes two promotion frames is synchronous to the application of force of desilting scraper bowl, improves the stability of desilting mechanism operation.

Optionally, the anti-disengaging piece is an anti-disengaging rod fixedly arranged between the two pushing frames, an anti-disengaging groove is formed in the bottom wall of the dredging bucket, and the anti-disengaging rod is inserted into the anti-disengaging groove.

Through adopting above-mentioned technical scheme, when the desilting scraper bowl was removed to being close to or keeping away from elevating system one side and removing, certain thrust or pulling force can be exerted to the desilting scraper bowl to the anticreep pole, makes the desilting scraper bowl be difficult for breaking away from the propelling movement frame to it is more stable to make the desilting scraper bowl remove.

Optionally, elevating system includes two sets up respectively in the driving cylinder of settling tank both sides, sets firmly the crane on driving cylinder piston rod, sets up and be used for the coupling assembling who connects both between crane and desilting scraper bowl and set up the shutoff subassembly that is used for carrying out the shutoff with desilting scraper bowl opening one side in crane and desilting scraper bowl opening one side.

By adopting the technical scheme, after the dredging bucket is moved to one side of the lifting mechanism by the dredging mechanism, the opening one side of the dredging bucket is automatically blocked by the blocking component, the dredging bucket is connected with the lifting frame through the connecting component, then the driving cylinder is started, when the piston rod of the driving cylinder extends out, the lifting frame is driven to move upwards, the lifting frame drives the dredging bucket to move upwards through the connecting component, the dredging bucket moves to the outer side of the settling box from the opening at the top of the settling box, then the opening one side of the dredging bucket is opened through the blocking component, and then the sludge in the dredging bucket is removed by a worker; after the silt in the dredging bucket is cleared away, the dredging bucket is lowered into the settling tank through the lifting mechanism, the connecting state of the connecting assembly is relieved, and then the dredging bucket is driven by the dredging mechanism to move to one side far away from the lifting mechanism.

Optionally, the connecting assembly comprises a connecting seat fixedly arranged at one end of the lifting frame far away from the driving cylinder, supporting seats arranged above the connecting seat in parallel at intervals, and a plurality of inserting rods fixedly arranged above the connecting seat;

the supporting seat is fixedly connected with the dredging bucket, a plurality of inserting holes matched with the inserting rods are formed in the supporting seat, and the inserting rods can be inserted into the inserting holes.

By adopting the technical scheme, when the lifting frame is connected with the dredging bucket through the connecting assembly, the driving cylinder is started firstly, then the piston rod of the driving cylinder moves upwards, the piston rod drives the lifting frame to move upwards, the lifting frame drives the connecting seat to move upwards, the connecting seat can drive the inserting rod to move upwards, the inserting rod is inserted into the inserting hole in the supporting seat, and the connection of the lifting frame and the dredging bucket can be realized; when needing to break off the connection of crane and desilting scraper bowl, at first the staff is through driving its piston rod downstream of actuating cylinder control, and the piston rod can drive crane and connecting seat downstream, and the connecting seat drives the grafting pole and breaks away from in the plug-in components hole, can break off the connection of crane and desilting scraper bowl.

Optionally, one side of the insertion rod close to the insertion hole is provided with a transition round angle.

Through adopting above-mentioned technical scheme, the transition fillet plays the effect of direction and location in inserting the spliced pole into the spliced eye for the spliced pole, makes things convenient for the staff to control the spliced pole and inserts in the spliced eye.

Optionally, the plugging assembly comprises a first supporting block and a second supporting block which are respectively and fixedly arranged on the two lifting frames, a supporting rod arranged on the first supporting block, a fixing screw rod in threaded connection with the second supporting block, and a plugging door fixedly connected with the supporting rod;

the first supporting block is provided with a supporting hole, the supporting rod is inserted into the supporting hole, the supporting rod is fixedly connected with the fixing screw rod, and the plugging door is abutted against one side of the opening of the dredging bucket.

By adopting the technical scheme, when the dredging bucket is moved to one side of the lifting mechanism by the dredging mechanism, after one side of the opening of the dredging bucket is abutted against the plugging door, the plugging of one side of the opening of the dredging bucket can be realized; if need clear away the silt in the desilting scraper bowl, at first rotate clamping screw, clamping screw drives rather than fixed connection's bracing piece and rotates, and the bracing piece can drive rather than fixed connection's shutoff door and rotate to open shutoff door opening part.

Optionally, a limiting block is fixedly arranged at one end of the supporting rod, which is far away from the fixing screw rod.

Through adopting above-mentioned technical scheme, the stopper is used for preventing that the bracing piece from breaking away from first supporting block, causes the phenomenon of follow-up difficult installation to improve the stability of shutoff subassembly.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the rainwater is recycled through the green energy-saving building by workers, fine impurities in the rainwater are removed, the subsequent full utilization of the rainwater is facilitated, and nearby residents can utilize the recycled rainwater to replace tap water to irrigate green plants, clean vehicles, flush toilets, rinse mops and the like, so that a large amount of water resources can be saved, energy is saved, consumption is reduced, and meanwhile, the impurities in the settling tank are automatically cleaned regularly through the dredging mechanism, the dredging bucket and the lifting mechanism, so that the storage space of the water storage tank is increased;

2. the linkage assembly can control the two driving screws to synchronously rotate and stop, so that not only is the operation of workers more convenient, but also the two pushing frames synchronously apply force to two sides of the dredging bucket in the length direction, so that the dredging bucket is not easy to deflect and moves more stably;

3. when the pushing frames move, the connecting plates fixedly connected with the pushing frames are driven to move, the connecting plates are located on the guide rods to slide, and meanwhile, the connecting plates are located on one sides, far away from the driving screw, of the pushing frames, so that the pushing frames are stressed uniformly vertically and are not prone to deflection, force is synchronously applied to the dredging bucket below the two pushing frames, and the running stability of the dredging mechanism is improved;

4. when the dredging bucket moves towards one side close to or far away from the lifting mechanism, the anti-drop rod can apply certain pushing force or pulling force to the dredging bucket, so that the dredging bucket is not easy to separate from the pushing frame, and the dredging bucket moves more stably;

5. the connection and disconnection of the connecting assembly can be realized by the extension and retraction of the piston rod of the driving cylinder, and the connecting assembly is simple to operate and convenient to control.

Drawings

FIG. 1 is a schematic structural diagram of a green energy-saving building in an embodiment of the present application;

FIG. 2 is a schematic view showing the configuration of the dredging bucket when it is moved to the outside of the settling tank;

FIG. 3 is a partial cross-sectional view showing a settling tank;

FIG. 4 is a partial cross-sectional view showing a dredging mechanism;

FIG. 5 is a partial schematic view showing the lifting mechanism moving the dredging bucket to the outside of the settling tank;

FIG. 6 is a partial cross-sectional view showing the connection assembly disconnected;

FIG. 7 is a schematic view showing a partial structure of the occluding component;

fig. 8 is a partially enlarged view showing a portion a of fig. 7.

Description of reference numerals: 1. a settling tank; 2. a water inlet pipe; 3. a water storage tank; 4. a recovery pipeline; 5. a dredging bucket; 6. a dredging mechanism; 61. a pushing frame; 62. a drive screw; 63. a linkage assembly; 631. a sprocket; 632. a chain; 633. a protective shell; 634. a drive motor; 64. a guide assembly; 641. a support plate; 642. a connecting plate; 643. a guide bar; 65. an anti-drop rod; 7. a lifting mechanism; 71. a driving cylinder; 72. a lifting frame; 73. a connecting assembly; 731. a connecting seat; 732. a supporting seat; 7321. inserting holes; 733. a plug rod; 7331. transition fillets; 74. a plugging component; 741. a first support block; 742. a second support block; 743. a support bar; 744. fixing the screw rod; 745. a hand wheel; 746. plugging the door; 747. a limiting block; 8. and (7) a cover plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses a green energy-saving building for recycling rainwater. Referring to fig. 1 and 2, the green energy-saving building comprises a settling tank 1 which is pre-buried underground, and the top of the settling tank 1 is communicated with a municipal drainage pipeline; be provided with inlet channel 2 on the setting tank 1, inlet channel 2 and 1 inside intercommunication of setting tank, and be provided with the rainwater grate on the inlet channel 2, the rainwater grate is used for filtering great piece impurity such as stone, mud piece in the rainwater. A water storage tank 3 is arranged on one side of the settling tank 1, a recovery pipeline 4 and a water suction pump are arranged between the water storage tank 3 and the settling tank 1, and a filter screen is arranged at one end, located in the settling tank 1, of the recovery pipeline 4. Be provided with desilting scraper bowl 5 on the diapire in the setting tank 1, 5 one side openings of desilting scraper bowl set up. A dredging mechanism 6 is arranged between the settling tank 1 and the dredging bucket 5, and the dredging mechanism 6 is used for pushing the dredging bucket 5 to move along the horizontal direction of the inner bottom wall of the settling tank 1. The settling tank 1 is provided with a lifting mechanism 7, and the lifting mechanism 7 is used for driving the dredging bucket 5 to move upwards to the outer side of the settling tank 1. 1 roof of setting tank still is equipped with the opening, and the opening of setting tank 1 is located elevating system 7's top, and 1 top opening part of setting tank articulates there is apron 8, and apron 8 is used for carrying out the shutoff with 1 top opening part of setting tank.

When workers recycle rainwater through the green energy-saving building, firstly, the rainwater is collected to one side of the water inlet pipeline 2, then, the rainwater grate filters larger impurities such as stones, mud blocks and the like in the rainwater, then the rainwater enters the settling tank 1 for temporary storage, after the rainwater is kept stand for a period of time, relatively fine impurities in the rainwater can be deposited on the inner bottom wall of the settling tank 1, a worker uses a water suction pump to enable clean water on the upper layer in the settling tank 1 to enter a water storage tank 3 through a recovery pipeline 4, meanwhile, the filter screen on the recovery pipeline 4 prevents fine impurities from entering the water storage tank 3, the purity of water resources in the water storage tank 3 is further improved, the water storage tank 3 is communicated with partial water using equipment in homes of residents nearby, and when the residents perform activities such as green plant irrigation, vehicle cleaning, closestool flushing, mop washing and the like, the recovered rainwater can be used for replacing tap water; to sedimentary silt impurity on the diapire in the setting tank 1, the staff need regularly clear up, when clearing up silt, at first start desilting mechanism 6, desilting mechanism 6 drives desilting scraper bowl 5 and shovels to desilting scraper bowl 5 in with the diapire of adhesion in the setting tank 1 in, and remove desilting scraper bowl 5 to 7 one side of elevating system, then the staff rotates apron 8 and opens 1 top opening part of setting tank, elevating system 7 is connected with desilting scraper bowl 5 and upwards moves desilting scraper bowl 5 to the setting tank 1 outside afterwards, then the staff clears away the impurity in the desilting scraper bowl 5 can, treat the impurity in the desilting scraper bowl 5 and clear away the back that finishes, it can to remove desilting scraper bowl 5 to initial position through elevating system 7 and desilting mechanism 6.

Referring to fig. 3 and 4, the dredging mechanism 6 comprises two pushing frames 61 arranged inside the settling tank 1, and the pushing frames 61 are arranged in an L shape; all threaded connection has drive screw 62 on two propelling movement frame 61, and two drive screw 62 set up and are parallel to each other along the length direction of setting up of setting tank 1, and drive screw 62's both ends are connected with setting tank 1 rotation simultaneously. A linkage assembly 63 is arranged between the two driving screws 62, and the linkage assembly 63 is used for driving the two driving screws 62 to synchronously rotate. The interior of the settling tank 1 is provided with a guide assembly 64, and the guide assembly 64 is used for guiding and limiting the movement of the two pushing frames 61. And an anti-disengaging part is also arranged between the two pushing frames 61 and is used for ensuring that the pushing frames 61 are not easy to separate from the dredging bucket 5 and the pushing frames 61 when the pushing frames 61 drive the dredging bucket 5 to move.

Referring to fig. 3 and 4, the linkage assembly 63 includes two chain wheels 631 respectively sleeved on the ends of the driving screws 62, and the chain wheels 631 are fixedly connected with the driving screws 62; a chain 632 is provided between the two sprockets 631, and the chain 632 meshes with the two sprockets 631 simultaneously. The outer side wall of the settling tank 1 is also provided with a protective shell 633, and the chain wheel 631 and the chain 632 are positioned in the protective shell 633; one end of one of the driving screws 62 is provided with a driving motor 634, an output shaft of the driving motor 634 is fixedly connected with the driving screw 62, and a housing of the driving motor 634 is fixedly connected with the protective housing 633.

Referring to fig. 3 and 4, the guide assembly 64 includes a support plate 641 fixedly installed on the inner top wall of the settling tank 1, the support plate 641 being perpendicular to the inner top wall of the settling tank 1; a connecting plate 642 is fixedly arranged between the two pushing frames 61. A guide rod 643 is fixedly arranged between the support plate 641 and the inner side wall of the settling tank 1, the guide rod 643 penetrates through the connecting plate 642 and is connected with the connecting plate 642 in a sliding manner, the guide rod 643 is perpendicular to the connecting plate 642, and the connecting plate 642 is located on the side of the pushing frame 61 away from the driving screw 62.

Referring to fig. 3 and 4, the anti-slip member is an anti-slip rod 65 fixedly arranged between the two pushing frames 61, the bottom wall of the dredging bucket 5 is provided with an anti-slip groove, and the anti-slip rod 65 is inserted into the anti-slip groove; when the dredging bucket 5 moves to the side close to or far from the lifting mechanism 7, the anti-drop rod 65 is used for applying certain pushing force or pulling force to the dredging bucket 5, so that the dredging bucket 5 is not easy to be separated from the pushing frame 61, and the dredging bucket 5 moves more stably.

When the dredging mechanism 6 drives the pushing frame 61 to move, firstly, a worker starts the driving motor 634, then the output shaft of the driving motor 634 drives one of the driving screws 62 to rotate, the driving screw 62 drives the sprocket 631 fixedly connected therewith to rotate, the sprocket 631 drives the other sprocket 631 to rotate through the chain 632, so that the other sprocket 631 drives the driving screw 62 fixedly connected therewith to synchronously rotate, the two driving screws 62 respectively drive the pushing frame 61 to move, the pushing frame 61 drives the connecting plate 642 fixedly connected therewith to move when moving, the connecting plate 642 is positioned on the guide rod 643 to slide, and the connecting plate 642 is positioned on one side of the pushing frame 61 far away from the driving screw 62, so that the pushing frame 61 is uniformly stressed up and down and is not easy to deflect, and then the two pushing frames 61 drive the dredging bucket 5 to move by combining the anti-slip rod 65 and the anti-slip groove at the bottom of the dredging bucket 5, so that the sludge on the bottom wall of the settling tank 1 can be scooped up and collected into the dredging bucket 5 by the opening side of the dredging bucket 5.

Referring to fig. 5 and 6, the lifting mechanism 7 includes two driving cylinders 71 respectively disposed at two sides of the settling tank 1, a lifting frame 72 is fixedly disposed at the top of a piston rod of the driving cylinder 71, and the lifting frame 72 is disposed in an L shape. A connecting assembly 73 is arranged between the lifting frame 72 and the dredging bucket 5, and the connecting assembly 73 is used for connecting the lifting frame 72 with the dredging bucket 5; the lifting frame 72 and the opening side of the dredging bucket 5 are provided with a blocking assembly 74, and the blocking assembly 74 is used for blocking the opening side of the dredging bucket 5.

Referring to fig. 5 and 6, the connection assembly 73 includes a connection base 731 fixedly installed at one end of the lifting frame 72 far from the driving cylinder 71, a support base 732 is installed above the connection base 731, the support base 732 is fixedly connected with the dredging bucket 5, and the support base 732 is parallel to and spaced from the connection base 731. A plurality of insertion rods 733 are fixedly arranged above the connecting seat 731, a plurality of insertion holes 7321 matched with the insertion rods 733 are formed in the supporting seat 732, the plurality of insertion holes 7321 correspond to the plurality of insertion rods 733 one by one, and the insertion rods 733 can be inserted into the corresponding insertion holes 7321. One side of the plug rod 733, which is close to the plug hole 7321, is provided with a transition fillet 7331, the transition fillet 7331 is used for guiding and positioning the plug rod 733 in the plug hole 7321, and the worker can control the plug rod 733 to be inserted into the plug hole 7321.

Referring to fig. 7 and 8, the plugging member 74 includes a first supporting block 741 and a second supporting block 742 respectively fixed to the two lifting frames 72; the first supporting block 741 is provided with a supporting rod 743, the first supporting block 741 is further provided with a supporting hole, and the supporting rod 743 is inserted into the supporting hole. A fixing screw 744 is in threaded connection with the second supporting block 742, and the supporting rod 743 is fixedly connected with the fixing screw 744; a hand wheel 745 is fixedly arranged at one end of the fixing screw 744, and the hand wheel 745 is used for facilitating the rotation of the fixing screw 744 by a worker. A blocking door 746 is fixedly connected to the support rod 743, and the blocking door 746 is abutted against one side of the opening of the dredging bucket 5. A limiting block 747 is fixedly arranged at one end of the supporting rod 743 far away from the fixing screw 744, and the limiting block 747 is used for preventing the supporting rod 743 from separating from the first supporting block 741 to cause the phenomenon of subsequent uneasy installation.

After the dredging bucket 5 is moved to one side of the lifting mechanism 7 by the dredging mechanism 6, one side of the opening of the dredging bucket 5 is automatically abutted against the blocking door 746, so that the blocking of one side of the opening of the dredging bucket 5 can be realized, then a worker starts the driving cylinder 71, the piston rod of the driving cylinder 71 moves upwards, the piston rod drives the lifting frame 72 to move upwards, the lifting frame 72 drives the connecting seat 731 to move upwards, the connecting seat 731 can drive the inserting rod 733 to move upwards, the inserting rod 733 is inserted into the inserting hole 7321 on the supporting seat 732, so that the lifting frame 72 is connected with the dredging bucket 5, then the piston rod of the driving cylinder 71 continues to extend out, the piston rod drives the lifting frame 72 to move upwards, the lifting frame 72 drives the dredging bucket 5 to move upwards and moves to the outer side of the settling box 1 from the opening at the top of the settling box 1, then the worker rotates the hand wheel 745, the hand wheel drives the fixing screw rod 744 to rotate, the fixing screw 744 drives the supporting rod 743 which is fixedly connected with the fixing screw to rotate, the supporting rod 743 can drive the blocking door 746 which is fixedly connected with the supporting rod to rotate, so that the opening of the blocking door 746 is opened, and a worker can clear silt in the dredging bucket 5. After waiting the silt in the desilting scraper bowl 5 to clear away, the staff can drive crane 72, connecting seat 731 through driving its piston rod downstream of actuating cylinder 71 control, the piston rod can drive crane, desilting scraper bowl 5 downstream, until desilting scraper bowl 5 transfer to the setting tank 1 in after, connecting seat 731 drives peg 733 and breaks away from in the plug-in components hole, can break off crane 72 and the connection of desilting scraper bowl 5, it can to keep away from one side of elevating system 7 to drive desilting scraper bowl 5 through desilting mechanism 6 afterwards.

The embodiment of the application provides a rainwater is retrieved and is recycled's green energy-saving building's implementation principle does: when a worker recycles rainwater through a green energy-saving building, firstly, the rainwater is collected to one side of the water inlet pipeline 2, then, the rainwater grate filters large impurities such as stones and mud in the rainwater, then, the rainwater enters the settling tank 1 to be temporarily stored, after the rainwater is kept stand for a period of time, the relatively fine impurities in the rainwater can be deposited to the inner bottom wall of the settling tank 1, the worker can enable clear water on the upper layer in the settling tank 1 to enter the water storage tank 3 through the recovery pipeline 4 through the water suction pump, meanwhile, the filter screen on the recovery pipeline 4 prevents fine impurities from entering the water storage tank 3, the purity of water resources in the water storage tank 3 is further improved, the water storage tank 3 is communicated with partial water utilization equipment in households of nearby residents, when the residents carry out green planting irrigation, traffic tools cleaning, toilet flushing, mop washing and the like, the recycled rainwater is used for replacing tap water, thereby saving a large amount of water resources, saving energy and reducing consumption;

for sludge impurities deposited on the bottom wall in the settling tank 1, workers need to clean the sludge regularly, when the sludge is cleaned, firstly, the driving motor 634 is started, the driving motor 634 controls the dredging mechanism 6 to drive the dredging bucket 5 to shovel the sludge adhered on the bottom wall in the settling tank 1 into the dredging bucket 5, the dredging bucket 5 is moved to one side of the lifting mechanism 7, then the lifting mechanism 7 is connected with the dredging bucket 5, the dredging bucket 5 is moved upwards to the outer side of the settling tank 1, and then the workers clean the impurities in the dredging bucket 5; after the impurities in the dredging bucket 5 are removed, the dredging bucket 5 is moved to the initial position through the lifting mechanism 7 and the dredging mechanism 6; the staff has not only realized the recycle of rainwater through green energy-conserving building, and has rejected the thin and small impurity in the rainwater, the subsequent make full use of the rainwater of being convenient for, make near resident can utilize the rainwater of retrieving to replace the running water to water green planting, wash the vehicle, wash the closestool, rinse the mop etc. thereby can save a large amount of water resources, energy saving and consumption reduction, simultaneously through desilting mechanism 6, desilting scraper bowl 5 and elevating system 7 are regularly to the automatic clearance of impurity in the setting tank 1, the storage space of storage water tank 3 has been improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a green energy-saving building that rainwater was retrieved and is recycled which characterized in that: the device comprises a pre-buried settling tank (1) to the underground, a water inlet pipeline (2) communicated with the settling tank (1), a rainwater grate arranged on the water inlet pipeline (2), a water storage tank (3) arranged on one side of the settling tank (1), a recovery pipeline (4) and a water pump arranged between the water storage tank (3) and the settling tank (1), a filter screen arranged on the recovery pipeline (4), a dredging bucket (5) arranged on the inner bottom wall of the settling tank (1), a dredging mechanism (6) arranged between the settling tank (1) and the dredging bucket (5) and used for pushing the dredging bucket (5) to horizontally move along the inner bottom wall of the settling tank (1), and a lifting mechanism (7) arranged on the settling tank (1) and used for driving the dredging bucket (5) to upwards move to the outer side of the settling tank (1);

the top of one side of the settling tank (1) close to the lifting mechanism (7) is opened, and the top of the settling tank (1) is communicated to a municipal drainage pipeline.

2. The green energy-saving building for rainwater recycling according to claim 1, characterized in that: the dredging mechanism (6) comprises two pushing frames (61) arranged in the settling tank (1), two driving screws (62) respectively connected to the pushing frames (61) in a threaded manner, a linkage assembly (63) arranged at one ends of the two driving screws (62) and used for driving the two driving screws (62) to synchronously rotate, a guide assembly (64) arranged in the settling tank (1) and used for guiding and limiting the movement of the two pushing frames (61), and an anti-falling part arranged between the two pushing frames (61) and used for enabling the pushing frames (61) to be not easily separated from the dredging bucket (5) and the pushing frames (61) when the pushing frames (61) drive the dredging bucket (5) to move; the two driving screws (62) are parallel to each other, and two ends of the driving screws (62) are rotatably connected with the settling tank (1).

3. The green energy-saving building for rainwater recycling according to claim 2, characterized in that: the linkage assembly (63) comprises two chain wheels (631) which are respectively sleeved at the end parts of the driving screws (62), a chain (632) which is meshed with the two chain wheels (631) simultaneously, and a driving motor (634) arranged at one end of one of the driving screws (62); the chain wheel (631) is fixedly connected with the driving screw rod (62).

4. The green energy-saving building for rainwater recycling according to claim 2, characterized in that: the guide assembly (64) comprises a support plate (641) fixedly arranged on the inner top wall of the settling tank (1), a connecting plate (642) fixedly arranged between the two pushing frames (61), and a guide rod (643) fixedly arranged between the support plate (641) and the inner side wall of the settling tank (1);

the connecting plates (642) are connected with the guide rods (643) in a sliding mode and are perpendicular to each other, and the connecting plates (642) are located on one side, away from the driving screw (62), of the pushing frame (61).

5. The green energy-saving building for rainwater recycling according to claim 2, characterized in that: the anti-falling part is an anti-falling rod (65) fixedly arranged between the two pushing frames (61), the bottom wall of the dredging bucket (5) is provided with an anti-falling groove, and the anti-falling rod (65) is inserted into the anti-falling groove.

6. The green energy-saving building for rainwater recycling according to claim 1, characterized in that: the lifting mechanism (7) comprises two driving cylinders (71) which are respectively arranged at two sides of the settling tank (1), a lifting frame (72) which is fixedly arranged on a piston rod of the driving cylinder (71), a connecting assembly (73) which is arranged between the lifting frame (72) and the dredging bucket (5) and is used for connecting the lifting frame (72) and the dredging bucket (5), and a plugging assembly (74) which is arranged at one side of an opening of the lifting frame (72) and the dredging bucket (5) and is used for plugging one side of the opening of the dredging bucket (5).

7. The green energy-saving building for rainwater recycling according to claim 6, characterized in that: the connecting assembly (73) comprises a connecting seat (731) fixedly arranged at one end of the lifting frame (72) far away from the driving cylinder (71), a supporting seat (732) arranged above the connecting seat (731) in parallel at intervals, and a plurality of inserting rods (733) fixedly arranged above the connecting seat (731);

the supporting seat (732) is fixedly connected with the dredging bucket (5), a plurality of inserting holes (7321) matched with the inserting rods (733) are formed in the supporting seat (732), and the inserting rods (733) can be inserted into the inserting holes (7321).

8. The green energy-saving building for rainwater recycling according to claim 7, characterized in that: one side of the plug rod (733) close to the plug hole (7321) is provided with a transition round angle (7331).

9. The green energy-saving building for rainwater recycling according to claim 6, characterized in that: the plugging component (74) comprises a first supporting block (741) and a second supporting block (742) which are respectively fixedly arranged on the two lifting frames (72), a supporting rod (743) arranged on the first supporting block (741), a fixing screw rod (744) in threaded connection with the second supporting block (742), and a plugging door (746) fixedly connected with the supporting rod (743);

the supporting hole is formed in the first supporting block (741), the supporting rod (743) is connected into the supporting hole in an inserted mode, the supporting rod (743) is fixedly connected with the fixing screw rod (744), and the blocking door (746) is abutted to one side of the opening of the dredging bucket (5).

10. The green energy-saving building for recycling rainwater according to claim 9, characterized in that: and a limiting block (747) is fixedly arranged at one end of the support rod (743) far away from the fixing screw rod (744).

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