CN210563038U - But green energy-saving building of recycle rainwater - Google Patents

Abstract

The utility model discloses a but green energy-conserving building of recycle rainwater belongs to green energy-conserving building technical field, which comprises a roof, the both sides on roof are provided with the water guide filter equipment that is used for rainwater collection mouth to filter debris, water guide filter equipment's one end is provided with rainwater collection passageway, water guide filter equipment includes water guide passageway, outer housing, debris collecting vat, U type water guide passageway, first filtration net, scaler and is used for driving scaler reciprocating motion's drive mechanism, water guide passageway switches on with U type water guide passageway mutually, the utility model discloses a rivers drive mechanism drives scaler reciprocating motion on first filtration net, clears up first filtration net to avoid debris jam on first filtration net, from guaranteeing the filter effect of first filtration net.

Description

But green energy-saving building of recycle rainwater

Technical Field

The utility model discloses a but green energy-conserving building of recycle rainwater belongs to green energy-conserving building technical field.

Background

The rainwater collection is completely called as a rainwater collection and utilization system, and means that rainfall runoff collected on a roof, a road, a square and other hardened earth surfaces of a building is collected and utilized, and is accumulated through channels such as collection, water delivery, water purification, storage and the like, and rainwater is collected to provide rainwater supply for greening, landscape water bodies, washing and underground water sources so as to achieve the purposes of comprehensively utilizing rainwater resources and saving water.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a but the green energy-saving building of recycle rainwater in order to solve foretell problem.

The utility model realizes the above purpose by the following technical proposal, a green energy-saving building capable of recycling rainwater comprises a roof, wherein, both sides of the roof are provided with water guide filtering devices for filtering sundries at a rainwater collecting port, one end of the water guide filtering device is provided with a rainwater collecting channel, the water guide filtering device comprises a water guide channel, an outer cover shell, a sundries collecting tank, a U-shaped water guide channel, a first filtering grid, a scraper and a transmission mechanism for driving the scraper to reciprocate, the water guide channel is communicated with the U-shaped water guide channel, the first filtering grid is arranged at the connecting part of the water guide channel and the U-shaped water guide channel, the scraper is arranged at one side of the first filtering grid close to the water guide channel, the transmission mechanism is arranged at the connecting part of the U-shaped water guide channel and the rainwater collecting channel, so that when rainwater flows to the rainwater collecting channel through the U-shaped water guide channel, the transmission mechanism can be driven to drive the scraper to reciprocate on the first filtering grid.

Preferably, the transmission mechanism comprises a long standing bamboo, gears and racks meshed with the gears are connected to two sides of the long standing bamboo, the racks are fixedly connected with the scrapers, and a cavity used for storing water is formed in the long standing bamboo.

Preferably, a slope is arranged on one side, away from the U-shaped water guide channel, of the first filtering grid.

Preferably, a second filtering grid is arranged on one side, close to the rainwater collecting channel, of the sundries collecting tank, and an opening used for manually lifting the sundries collecting tank is formed in one end, close to the water guide channel, of the sundries collecting tank.

Preferably, the outer casing and one side of the rack far away from the gear are provided with sliding grooves.

Preferably, a limiting block is arranged at the joint of the outer housing and one side of the sundries collecting tank, which is close to the rainwater collecting channel.

Preferably, a water guide inclined plate is arranged on one side, away from the rainwater collecting channel, of the outer housing, and the water guide inclined plate is connected with the water guide channel.

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

when raining, rainwater on the roof flows into the water guide filtering device through the water guide channel, the rainwater and sundries on the roof fall into the sundries collecting tank together, the rainwater filters the sundries through the second filtering grids on the sundries collecting tank, then the rainwater is guided into the rainwater collecting channel, the sundries are prevented from entering the rainwater collecting channel to cause blockage, the filtering effect of the second filtering grids is gradually reduced along with the accumulation of the sundries, the rainwater flows into the rainwater collecting channel through the U-shaped water guide channel, the rainwater flowing into the U-shaped water guide channel is filtered by the first filtering grids, the sundries are prevented from entering the rainwater collecting channel to cause blockage, and when the water flows to the rainwater collecting channel through the U-shaped water guide channel, the water flow drives the transmission mechanism to drive the scraper to reciprocate on the first filtering grids to clean the first filtering grids, so that the sundries are prevented from being blocked on the first filtering grids, thereby ensuring the filtering effect of the first filtering grid.

Drawings

FIG. 1 is a schematic structural view of a green energy-saving building capable of recycling rainwater;

fig. 2 is a schematic structural view of the water guide filtering device of the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2;

fig. 4 is a schematic structural view of the long standing bamboo of the present invention;

fig. 5 is a schematic view of the connection structure of the rack and the scraper according to the present invention.

Reference numerals: 1. a water guide sloping plate; 2. a water guide channel; 3. an opening; 4. an outer casing; 5. a sundry collecting tank; 6. a second filter mesh; 7. a limiting block; 8. a U-shaped water guide channel; 9. a rainwater collection channel; 10. a roof; 11. a sliding groove; 12. a rack; 13. standing bamboo in long strip shape; 14. a gear; 15. a first filter mesh; 16. a slope; 17. a scraper; 18. a cavity; 19. a water guide filtering device.

Detailed Description

In the following description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like refer to the orientation or position relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not refer to or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus are not to be construed as limiting the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-5, a green energy-saving building capable of recycling rainwater comprises a roof 10, a water guiding and filtering device 19 for filtering impurities at a rainwater collecting port is arranged at two sides of the roof 10, a rainwater collecting channel 9 is arranged at one end of the water guiding and filtering device 19, the water guiding and filtering device 19 comprises a water guiding channel 2, an outer cover shell 4, an impurity collecting tank 5, a U-shaped water guiding channel 8, a first filtering grid 15, a scraper 17 and a transmission mechanism for driving the scraper 17 to reciprocate, the water guiding channel 2 is communicated with the U-shaped water guiding channel 8, the first filtering grid 15 is positioned at the connection position of the water guiding channel 2 and the U-shaped water guiding channel 8, the scraper 17 is positioned at one side of the first filtering grid 15 close to the water guiding channel 2, the transmission mechanism is positioned at the connection position of the U-shaped water guiding channel 8 and the rainwater collecting channel 9, so that when rainwater flows to the rainwater collecting channel 9 through the U-shaped water guiding channel 8, a transmission mechanism can be driven to reciprocate the scraper 17 on the first filter mesh 15.

When raining, rainwater on the roof 10 flows into the water guide filtering device 19 through the water guide channel 2, the rainwater and sundries on the roof 10 fall into the sundries collecting tank 5 together, the rainwater filters the sundries through the second filtering grids 6 on the sundries collecting tank 5, and then the rainwater is guided into the rainwater collecting channel 9, so that the sundries are prevented from entering the rainwater collecting channel 9 to cause blockage, the rainwater can flow into the rainwater collecting channel 9 through the U-shaped water guide channel 8 along with the gradual deterioration of the filtering effect of the second filtering grids 6 due to the accumulation of the sundries, the rainwater can be filtered by using the first filtering grids 15 to prevent the sundries from entering the rainwater collecting channel 9 to cause blockage, and when the rainwater flows into the rainwater collecting channel 9 through the U-shaped water guide channel 8, the water flow can drive the transmission mechanism to drive the scraper 17 to reciprocate on the first filtering grids 15 to clean the first filtering grids 15, thereby avoiding the sundries from being blocked on the first filtering grid 15, and ensuring the filtering effect of the first filtering grid 15.

As shown in fig. 1-5, the transmission mechanism includes a long standing bamboo 13, a gear 14 and a rack 12 engaged with the gear 14 are connected to both sides of the long standing bamboo 13, the rack 12 is fixedly connected with a scraper 17, and a cavity 18 for storing water is arranged inside the long standing bamboo 13.

When water flows to the rainwater collecting channel 9 through the U-shaped water guide channel 8, the water flows to the cavity 18 of the long standing bamboo 13, the original state of the long standing bamboo 13 is that the head is lighter and the bottom is heavier, when the water amount reaches a critical value along with the rise of the water amount in the cavity 18, the state of the long standing bamboo 13 is changed into that the head is heavier and the bottom is lighter, so that the long standing bamboo 13 rotates to pour rainwater into the rainwater collecting channel 9, after the rainwater in the cavity 18 is poured out, the gravity of the bottom is utilized to enable the long standing bamboo 13 to be reversed, so that the long standing bamboo 13 returns to the original position to prepare for pouring the rainwater into the rainwater collecting channel 9 next time, and meanwhile, when the long standing bamboo 13 rotates, the gear 14 is driven to rotate to be meshed with the rack 12, the rack 12 moves in a direction far away from the gear 14, and the rack 12 drives the scraper 17 to move in a direction far away from the gear 14 on the first filtering grid 15, play the effect of clearing up first filtration net 15, when bamboo 13 reversal is awakened to rectangular type, thereby drive the reversal of gear 14 and drive scraper 17 and remove to the direction that is close to gear 14 at first filtration net 15, play the effect of clearing up first filtration net 15 once more to the realization is to the reciprocal clearance effect of first filtration net 15.

As shown in fig. 1 to 5, a slope 16 is provided at a side of the first filtering mesh 15 away from the U-shaped water guide passage 8.

When the scraper 17 and thus the first filter mesh 15 scrape down the sundries, the inclined arrangement of the slope 16 is utilized to play a role in guiding the movement of the sundries, so that the sundries can better enter the sundries collecting groove 5.

As shown in fig. 1 to 5, a second filtering grid 6 is arranged on one side of the sundries collecting tank 5 close to the rainwater collecting channel 9, and an opening 3 for manually lifting the sundries collecting tank 5 is formed in one end of the sundries collecting tank 5 close to the water guide channel 2.

When rainwater and debris got into debris collecting vat 5 together, utilize second to filter net 6 and play and filter the water guide effect, avoid the rainwater to pile up on debris collecting vat 5, when people will clear up debris collecting vat 5, only need through the manual debris collecting vat 5 of pulling of opening 3, can take out debris collecting vat 5 from water guide filter equipment 19, clear up convenient and fast more.

As shown in fig. 1 to 5, the outer casing 4 and the side of the rack 12 away from the gear 14 are provided with a sliding groove 11.

When the rack 12 moves, the sliding groove 11 is used for reducing the moving resistance of the rack 12 and improving the transmission efficiency of the transmission mechanism.

As shown in fig. 1 to 5, a limiting block 7 is arranged at a joint of the outer casing 4 and the sundries collecting tank 5 at one side close to the rainwater collecting channel 9.

When installing debris collecting vat 5, debris collecting vat 5 can directly be placed on stopper 7, and the step of installation debris collecting vat 5 is convenient and fast more.

As shown in fig. 1 to 5, a water guide sloping plate 1 is arranged on one side of the outer casing 4 away from the rainwater collection channel 9, and the water guide sloping plate 1 is connected with the water guide channel 2.

When rainwater on the roof 10 flows to the water guide and filtration device 19, the water guide sloping plate 1 has the effect of guiding the direction of the water flow, so that the rainwater flows into the water guide channel 2 more quickly, and the water guide efficiency of the water guide and filtration device 19 is improved.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. A green energy-saving building capable of recycling rainwater comprises a roof (10) and is characterized in that water guide filtering devices (19) used for filtering sundries at a rainwater collecting opening are arranged on two sides of the roof (10), a rainwater collecting channel (9) is arranged at one end of each water guide filtering device (19), each water guide filtering device (19) comprises a water guide channel (2), an outer cover shell (4), a sundry collecting tank (5), a U-shaped water guide channel (8), a first filtering grid (15), a scraper (17) and a transmission mechanism used for driving the scraper (17) to reciprocate, the water guide channel (2) is communicated with the U-shaped water guide channel (8), the first filtering grid (15) is located at the connecting position of the water guide channel (2) and the U-shaped water guide channel (8), the scraper (17) is located on one side, close to the water guide channel (2), of the first filtering grid (15), the transmission mechanism is positioned at the connecting part of the U-shaped water guide channel (8) and the rainwater collection channel (9) so as to drive the transmission mechanism to drive the scraper (17) to reciprocate on the first filtering grid (15) when rainwater flows to the rainwater collection channel (9) through the U-shaped water guide channel (8).

2. A green energy-saving building capable of recycling rainwater according to claim 1, characterized in that: the transmission mechanism comprises a strip-shaped waking bamboo (13), gears (14) and racks (12) meshed with the gears (14) are connected to the two sides of the strip-shaped waking bamboo (13), the racks (12) are fixedly connected with a scraper (17), and cavities (18) for storing water are arranged in the strip-shaped waking bamboo (13).

3. A green energy-saving building capable of recycling rainwater according to claim 1, characterized in that: a slope (16) is arranged on one side, away from the U-shaped water guide channel (8), of the first filtering grid (15).

4. A green energy-saving building capable of recycling rainwater according to claim 1, characterized in that: a second filtering grid (6) is arranged on one side, close to the rainwater collecting channel (9), of the sundry collecting tank (5), and an opening (3) used for manually lifting the sundry collecting tank (5) is formed in one end, close to the water guide channel (2), of the sundry collecting tank (5).

5. A green energy-saving building capable of recycling rainwater according to claim 2, characterized in that: and a sliding groove (11) is formed in one side, far away from the gear (14), of the outer housing (4) and the rack (12).

6. A green energy-saving building capable of recycling rainwater according to claim 1, characterized in that: and a limiting block (7) is arranged at the joint of the outer housing (4) and one side of the sundries collecting tank (5) close to the rainwater collecting channel (9).

7. A green energy-saving building capable of recycling rainwater according to claim 1, characterized in that: one side of the outer housing (4) far away from the rainwater collecting channel (9) is provided with a water guide sloping plate (1), and the water guide sloping plate (1) is connected with the water guide channel (2).

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