CN112794584A

CN112794584A - Courtyard landscape water circulation system

Info

Publication number: CN112794584A
Application number: CN202110160707.9A
Authority: CN
Inventors: 简龙骥; 向文良; 黄元松; 李建; 黄河; 刘学阳
Original assignee: Sichuan Qinghe Fusheng Biological Engineering Co ltd; SICHUAN QINGHE TECHNOLOGY CO LTD
Current assignee: Sichuan Qinghe Fusheng Biological Engineering Co ltd; SICHUAN QINGHE TECHNOLOGY CO LTD
Priority date: 2021-02-05
Filing date: 2021-02-05
Publication date: 2021-05-14

Abstract

A courtyard landscape water circulation system comprises a main body, an algae cleaning unit, a multi-stage aeration unit, a bottom mud purification unit and an external unit. The main body comprises a water pool and a conversion pipe, and further comprises a fountain mechanism and a sprinkling irrigation mechanism, wherein the fountain mechanism is assembled at the upper end of the conversion pipe when a landscape fountain is needed to be used, and the sprinkling irrigation mechanism is assembled at the upper end of the conversion pipe when plants around the fountain are needed to be sprinkled; the algae cleaning unit is arranged on the main body and comprises a cleaning fork and a water filtering frame and is used for cleaning the garden landscape pool; the multi-stage aeration unit is arranged at one end of the main body and is used for inhibiting anaerobic microorganisms, so that pollutants in the water body can be decomposed through aerobic treatment; the sediment purification unit is arranged at one end of the main body and used for cleaning sediment, and the external unit is arranged on the outer peripheral side of the main body. The invention can circularly purify water in the courtyard landscape pool, reduce the treatment cost of the courtyard landscape water, carry out ecological restoration on the courtyard landscape pool, and irrigate plants around the landscape pool.

Description

Courtyard landscape water circulation system

Technical Field

The invention relates to a courtyard landscape water system, in particular to a courtyard landscape water circulating system.

Background

The landscape water refers to surface water bodies for viewing, namely river channels for various landscapes, artificial lakes such as lakes in various city parks, artificial landscape lakes matched with real estate development and the like. With the improvement of living standard of people, landscape pools are usually added into the courtyard type living environment, wherein the water body is called courtyard landscape water.

The garden landscape water is more susceptible to contamination, mainly for two reasons, the first being poor quality and lower quality grade of water used in the garden landscape pool, and the second being less water in the garden landscape pool, poor flowability, shallow water and fragile ecology in the closed pool, which is not easily resistant to external contamination.

Courtyard landscape water needs to be purified, however, the conventional purification technology is to treat the courtyard landscape water externally through complex circulating equipment, and the water up to the standard returns to the landscape pool.

Therefore, there is a need for a circulation system that circulates and purifies water primarily within a yard landscape pool, reduces yard landscape water treatment costs, and also ecologically repairs the yard landscape pool.

Disclosure of Invention

Aiming at the defects, the invention provides the courtyard landscape water circulation system which can circularly purify water in a courtyard landscape water tank, reduce the treatment cost of the courtyard landscape water, carry out ecological restoration on the courtyard landscape water tank and irrigate plants around the landscape water tank.

In order to achieve the purpose of the invention, the following technology is adopted:

a yard landscape water circulation system comprising:

the main body comprises a water tank, a first transverse groove is formed in one end face of the water tank, a second transverse groove is formed below the first transverse groove, a water return groove is formed outside the second transverse groove, a fourth round hole is formed below one end of the other end face of the water tank, a rack is further arranged on the other side face of the water tank, a plurality of connecting rods are arranged on the inner side face of the water tank, a conversion pipe is arranged at one end of each connecting rod, a water collecting pipe is arranged at the lower end of each conversion pipe, a plurality of water collecting branch pipes are arranged at one end of each water collecting pipe, the main body further comprises a fountain mechanism and a sprinkling irrigation mechanism, the fountain mechanism is used for being assembled at the upper end of each conversion;

algae clearance unit, locate in the main part, algae clearance unit includes the second rotating electrical machines, second rotating electrical machines output shaft one end be equipped with rack toothing's third gear, second rotating electrical machines upper end is equipped with the pulling rod, pulling rod one end is equipped with the horizontal pole, horizontal pole one side array has a plurality of clearance forks, algae clearance unit is still including the drainage frame of locating the wet return top, algae clearance unit is still including the fourth rotating electrical machines of locating a pond side, the output shaft one end of fourth rotating electrical machines is equipped with the rotary rod, rotary rod pot head is equipped with the rotor plate that matches with the second transverse groove.

Furthermore, a plurality of limiting rods are arrayed above the first transverse groove and used for intercepting and cleaning algae on the fork; one end of the water return tank is provided with a plurality of first fixed seats, and one end of the water frame is provided with a plurality of second fixed seats matched with the first fixed seats;

furthermore, a plurality of first round holes are formed in one side face of the water pool in an array mode, a plurality of second round holes matched with the first round holes are formed above the first round holes, and a third round hole is further formed in one side face of the water pool.

Furthermore, sprinkling irrigation mechanism is including locating the connecting pipe on the converting pipe, and connecting pipe upper end periphery side is equipped with first gear, and connecting pipe periphery side one end is equipped with first rotating electrical machines, and first rotating electrical machines output shaft one end is equipped with the second gear with first gear engagement, wears to be equipped with the spray pipe in the first gear, and the spray pipe periphery side lower extreme array has a plurality of water spray branch pipes.

Further, horizontal pole one end is equipped with the driven lever, and driven lever one end is equipped with the draw runner, and driven lever sliding fit is in the spout of seting up on the draw runner, and draw runner one end is equipped with the dismantlement piece, and the swivel becket one end has been seted up, and a draw runner side still is equipped with the extension frame, is equipped with the third rotating electrical machines on the extension frame, and the swivel becket is worn to locate by the third rotating electrical machines output shaft.

Further, courtyard landscape water circulation system still includes:

multistage aeration unit, locate main part one end, multistage aeration unit includes linear air fan, the linear air fan bottom is equipped with the air-supply line, air-supply line one end is equipped with the air duct that the level set up, multistage aeration unit still includes a plurality of centrifugal fan that the array set up, centrifugal fan one end is equipped with the vertical air intake that upwards sets up, air duct periphery side is located to centrifugal fan's air outlet, the third round hole is worn to locate by the air duct, air duct one end periphery side array is equipped with a plurality of aeration pipes, aeration pipe periphery side upper end is equipped with a plurality of aeration mouths, aeration mouth up end array has a plurality of aeration micropores.

Further, courtyard landscape water circulation system still includes:

the bottom mud purifying unit is arranged at one end of the main body and comprises a single-shaft linear cylinder arranged on one side face of the water pool, one end of an output shaft of the single-shaft linear cylinder is provided with a sliding door, the upper end face and the lower end face of the sliding door are arrayed with a plurality of pairs of circular doors, the bottom mud purifying unit further comprises a plurality of submarine cabins arranged in an array mode, a feed opening is formed in each submarine cabin, a submarine outlet is formed in one end face of each submarine cabin, a submarine inlet is formed in the upper portion of the submarine outlet, the submarine outlet is matched with the first circular hole, the submarine inlet is matched with the second circular hole, and.

Further, miniature submarine includes hollow hull, and hull upper end is equipped with the feed mechanism who is used for adding EPSB engineering bacterium grain, and feed mechanism one end is equipped with fifth rotating electrical machines, and a pot head of fifth rotating electrical machines output shaft is equipped with the feeding gate, and miniature submarine bottom is equipped with along hull length direction setting and the opposite advancing mechanism of output direction, retreats the mechanism, and hull bottom is equipped with the feeder, and the feeder bottom is equipped with throws the bin gate.

Further, courtyard landscape water circulation system still includes:

the external unit locates main part periphery side, and the external unit includes ground mechanism, and ground mechanism is equipped with the supporting layer including planting the layer, and plant layer lower extreme, and the external unit is still including running through a plurality of movable covers of locating ground mechanism upper and lower terminal surface, and the movable cover is used for matcing second rotating electrical machines, rack, drainage frame, linear air fan, air intake, dog-house, and supporting layer bottom area array has a plurality of branches, and branch is located on the ground.

Furthermore, plants are planted on the upper end face of the movable cover.

The beneficial effects of this technical scheme lie in:

1. the invention relates to a water algae pollution device, which is the most common pollution of a garden landscape pool.

2. Aeration and oxygenation are one of effective measures for improving water quality indexes of a water body, a multi-stage oxygenation system is adopted for aerating the water body in the prior art, oxygen or air is mainly filled into the water body by a manual mechanical method to improve the dissolved oxygen level in the water body, so that the defect of atmospheric reoxygenation is overcome, aerobic microorganisms of the water body are enhanced and recovered, anaerobic microorganisms are inhibited, pollutants in the water body are decomposed through aerobic, the water body is purified, and the water body can stably reach the standard. The multi-stage aeration unit can be used for carrying out multiple oxygenation on air through the centrifugal fans arranged in the array, and the oxygenated air is sprayed out of the water body through the aeration micropores of the aeration ports.

3. The EPSB engineering bacteria take the pollutants in the water body and the bottom mud as nutrient sources for the growth and the propagation of the pollutants, so that a large amount of organic pollutants are consumed, decomposed and mineralized, and the transparency of the water body is improved, thereby achieving the purpose of pollution treatment. Compared with the prior art that the bottom sediment is directly input from the water surface, the bottom sediment purification unit disclosed by the invention has the advantages that the input position is closer to the bottom of the water body, the effect of ESPB engineering bacteria is improved, the ascending and descending of the micro submarine are realized through the increase and decrease of the ESPB engineering bacteria, and the ecological restoration can be realized by the bottom sediment purification unit.

4. The conversion pipe in the pond can be installed fountain mechanism or sprinkling irrigation mechanism, and fountain mechanism is used for assembling in the conversion pipe when needs use the view fountain, and sprinkling irrigation mechanism is used for assembling in the conversion pipe when needs sprinkling irrigation surrounding plant. The direction of the spray pipe of the spray irrigation mechanism can be rotated, and the spray branch pipe can spray irrigation to the surrounding plant layers, so that the surrounding environment of the courtyard landscape pool is improved.

5. The external unit comprises a plurality of movable covers which penetrate through the upper end face and the lower end face of the ground mechanism, plants are planted on the upper end faces of the movable covers, and the coordination of the whole environment can be kept when the circulation purification operation is not carried out.

Drawings

Fig. 1 shows an overall perspective view of an embodiment of the present application.

Figure 2 shows a perspective view of the body of an embodiment of the present application with a fountain mechanism assembled.

Figure 3 illustrates another perspective view of the body of the fountain mechanism assembled with embodiments of the present application.

Fig. 4 is a perspective view of the main body of the sprinkler irrigation mechanism of the embodiment of the present application.

Fig. 5 shows a perspective view of a sprinkler irrigation mechanism according to an embodiment of the present application.

FIG. 6 is a perspective view showing the relationship between the algae removal unit and the main body according to the embodiment of the present application.

Fig. 7 is a perspective view illustrating an algae removal unit according to an embodiment of the present application.

Fig. 8 is a partial perspective view of a third rotating electric machine, which is a detaching block according to an embodiment of the present application.

FIG. 9 is a perspective view of another embodiment of the algae removal unit.

FIG. 10 is a perspective view showing the connection relationship between the water returning tank and the water filtering frame according to the embodiment of the present application.

Fig. 11 is a perspective view showing the position relationship between the multi-stage aeration unit and the main body according to the embodiment of the present application.

Fig. 12 is a perspective view of the multi-stage aeration unit according to the embodiment of the present application.

Fig. 13 is a perspective view of an aeration port according to an embodiment of the present application.

Fig. 14 is a perspective view showing the position relationship between the multi-stage aeration unit and the main body according to the embodiment of the present application.

FIG. 15 shows a perspective view of a bottom mud purification unit according to an embodiment of the present application.

FIG. 16 is an exploded perspective view of a bottom mud purification unit according to an embodiment of the present application.

Fig. 17 shows a perspective view of the bottom mud micro-submarine according to the embodiment of the present application.

FIG. 18 is a perspective view showing the positional relationship among the pool, the submarine bay and the aeration pipe according to the embodiment of the present invention.

Fig. 19 is a perspective view showing a positional relationship between an external unit and a main body according to an embodiment of the present application.

Detailed Description

The technical solution of the present application is further described in detail below with reference to the accompanying drawings.

Example one

Referring to fig. 1 to 10, a courtyard landscape water circulation system shown in fig. 19 includes a main body 1, an algae removal unit 2, and an external unit 5.

The main body 1 comprises a water pool 11, one end face of the water pool 11 is provided with a first cross groove 1111, a plurality of limiting rods 116 are arrayed above the first cross groove 1111 and used for intercepting algae cleaned on a cleaning fork 221, a second cross groove 1112 is arranged below the first cross groove 1111, a water return groove 17 is arranged outside the second cross groove 1112, one end of the water return groove 17 is provided with a plurality of first fixing seats 171, one side face of the water pool 11 is provided with a plurality of first round holes 1121 in an array manner, a plurality of second round holes 1122 matched with the first round holes 1121 are arranged above the first round holes 1121, one side face of the water pool 11 is also provided with a third round hole 114, a fourth round hole 113 is arranged below one end face of the other end face of the water pool 11, the other side face of the water pool 11 is also provided with a rack 115, the inner side face of the water pool 11 is provided with a plurality of connecting rods 12, one end of each connecting rod 12 is provided with a conversion pipe 13, the main body 1 further comprises a fountain mechanism 15 and a sprinkling irrigation mechanism 16, wherein the fountain mechanism 15 is arranged at the upper end of the conversion pipe 13 when a landscape fountain is needed to be used, the sprinkling irrigation mechanism 16 is arranged at the upper end of the conversion pipe 13 when plants around the sprinkler are needed to be sprinkled, the sprinkling irrigation mechanism 16 comprises a connecting pipe 161 arranged on the conversion pipe 13, a first gear 1611 is arranged on the periphery of the upper end of the connecting pipe 161, a first rotating motor 162 is arranged at one end of the periphery of the connecting pipe 161, a second gear 1621 meshed with the first gear 1611 is arranged at one end of an output shaft of the first rotating motor 162, a sprinkler pipe 163 is arranged in the first gear 1611 in a penetrating manner, and a plurality of sprinkler branch pipes 164.

The algae cleaning unit 2 is arranged on the main body 1, the algae cleaning unit 2 comprises a second rotating motor 21, one end of an output shaft of the second rotating motor 21 is provided with a third gear 211 meshed with the rack 115, the upper end of the second rotating motor 21 is provided with a dragging rod 212, one end of the dragging rod 212 is provided with a cross rod 22, a plurality of cleaning forks 221 are arrayed on one side surface of the cross rod 22, one end of the cross rod 22 is provided with a driven rod 222, one end of the driven rod 222 is provided with a sliding bar 23, the driven rod 222 is matched with a sliding groove 231 formed in the sliding bar 23 in a sliding mode, one end of the sliding bar 23 is provided with a disassembling block 232, one end of the disassembling block 232 is provided with a rotating ring 2321, one side surface of the sliding bar 23 is further provided with an extending frame 233, the extending frame is provided with a third rotating motor 24, the output shaft of the third rotating motor 24 penetrates through the rotating ring 2321, the algae cleaning unit 2 further comprises a water filtering frame 25 arranged above the water, the algae cleaning unit 2 further comprises a fourth rotating motor 26 arranged on one side surface of the water tank 11, a rotating rod 261 is arranged at one end of an output shaft of the fourth rotating motor 26, and a rotating plate 262 matched with the second transverse groove 1112 is sleeved at one end of the rotating rod 261.

The external unit 5 is arranged on the outer peripheral side of the main body 1, the external unit 5 comprises a ground mechanism 51, the ground mechanism 51 comprises a plant layer 511, the lower end of the plant layer 511 is provided with a supporting layer 512, the external unit 5 further comprises a plurality of movable covers 52 penetrating the upper and lower end faces of the ground mechanism 51, the movable covers 52 are used for matching the second rotating motor 21, the rack 115, the water filtering frame 25, the linear fan 31, the air inlet 321 and the feeding port 431, a plurality of supporting rods 53 are arranged on the bottom end face of the supporting layer 512, and the supporting rods 53 are arranged on the foundation.

The working mode is as follows:

in daily use, when a landscape fountain is required, the fountain mechanism 15 is assembled to the upper end of the conversion pipe 13, water is taken from the water tank 11 filled with water through the water collecting branch pipe 141, and the water passes through the water collecting branch pipe 141, the water collecting pipe 14 and the conversion pipe 13 in order and enters the fountain mechanism 15.

During daily use, when plants around need to be irrigated, the irrigation mechanism 16 is assembled at the upper end of the conversion pipe 13, water is taken from the water pool 11 filled with water through the water collecting branch pipe 141, the water sequentially passes through the water collecting branch pipe 141, the water collecting pipe 14, the conversion pipe 13 and the connecting pipe 161 to enter the water spraying pipe 163, the first rotating motor 162 is started, and the water spraying branch pipe 164 can be enabled to irrigate to the plant layers 511 around by rotating the direction of the water spraying pipe 163.

When the circulation purification is carried out, the fountain mechanism 15 is disassembled, all the movable covers 52 are opened, and the algae cleaning unit 2 is assembled, and the concrete steps are as follows: starting the third rotating electric machine 24, opening the detaching block 232, placing the driven rod 222 into the chute 231, and simultaneously placing the second rotating electric machine 21 into the corresponding opening of the ground mechanism 51, so that the third gear 211 is engaged with the rack 115; the second fixing seat 251 matched with the first fixing seat 171 is connected by a connecting rod, so that the water filtering frame 25 is fixed above the water return tank 17. The third gear 211 is started, the second rotating motor 21 drives the dragging rod 212 and drives the cross rod 22 to move forwards, the cleaning fork 221 inserts algae, after the algae pass through the first cross groove 1111, the second rotating motor 21 is started to move in the opposite direction, the limiting rod 116 intercepts the algae above the water filtering frame 25, at the moment, the algae can be taken out, but water in the algae can flow to the water return groove 17 through the water filtering frame 25, the fourth rotating motor 26 is started, the rotating plate 262 is opened, and the water returns to the water pool 11 again.

After the circulation purification is finished, the operation of the algae removal unit 2 is stopped, the algae removal unit 2 is disassembled and taken out, all the movable covers 52 are closed, and the daily use is resumed.

Example two

Referring to fig. 1-13, fig. 19 shows a courtyard landscape water circulation system including the courtyard landscape water circulation system of the first embodiment, and a multi-stage aeration unit 3.

Multistage aeration unit 3 locates 1 one end of main part, multistage aeration unit 3 includes linear air fan 31, linear air fan 31 bottom is equipped with air-supply line 311, air-supply line 311 one end is equipped with the air duct 33 that the level set up, multistage aeration unit 3 still includes a plurality of centrifugal fan 32 of array setting, centrifugal fan 32 one end is equipped with the vertical air intake 321 that upwards sets up, air duct 33 periphery side is located to centrifugal fan 32's air outlet, third round hole 114 is worn to locate by air duct 33, air duct 33 one end periphery side array is equipped with a plurality of aeration pipes 34, aeration pipe 34 periphery side upper end is equipped with a plurality of aeration mouths 35, aeration mouth 35 up end array has a plurality of aeration micropores 351.

The working mode is as follows:

The linear fan 31 is started, air is sucked into the air inlet pipe 311 from the outside, the air enters the air guide pipe 33 again, the centrifugal fan 32 is started simultaneously, the air is sucked through the air inlet 321, oxygenation operation is continuously carried out on the air in the air guide pipe 33, and the air is sprayed out from the aeration micropores 351 on the aeration port 35 after entering the aeration pipe 34.

After the circulation purification is finished, the operation of the algae cleaning unit 2 and the multi-stage aeration unit 3 is stopped, the algae cleaning unit 2 is disassembled and taken out, all the movable covers 52 are closed, and the daily use is resumed.

EXAMPLE III

A courtyard landscape water circulation system as shown in fig. 1-19 includes the courtyard landscape water circulation systems of the first and second embodiments, and a bottom mud purification unit 4.

The bottom mud purification unit 4 is arranged at one end of the main body 1, the bottom mud purification unit 4 comprises a single-shaft linear cylinder 41 arranged on one side face of the water pool 11, one end of an output shaft of the single-shaft linear cylinder 41 is provided with a sliding door 42, a plurality of pairs of circular doors 421 are arrayed on the upper end face and the lower end face of the sliding door 42, the bottom mud purification unit 4 further comprises a plurality of submarine bins 43 which are arrayed, a feeding port 431 is formed in each submarine bin 43, a submarine outlet 432 is formed in one end face of each submarine bin 43, a submarine inlet 433 is arranged above each submarine outlet 432, each submarine outlet 432 is matched with the first circular hole 1121, each submarine inlet 433 is matched with the second circular hole 1122, and a miniature submarine; miniature submarine 44 includes hollow hull 441, and hull 441 upper end is equipped with the feed mechanism who is used for adding EPSB engineering bacterium grain, and feed mechanism one end is equipped with fifth rotating electrical machines 442, and a pot head of fifth rotating electrical machines 442 output shaft is equipped with feed gate 443, and miniature submarine 44 bottom is equipped with along hull 441 length direction setting and the opposite advancing mechanism 445 of output direction, retreats mechanism 444, and hull 441 bottom is equipped with feeder 446, and feeder 446 bottom is equipped with feeding gate.

The working mode is as follows:

Starting the fifth rotating motor 442, opening the feeding door 443, fixing the micro submarine 44 on the water surface in the submarine bin 43, adding EPSB engineering bacteria into the submarine body 441 to enable the weight of the submarine body 441 to just sink to the height of the submarine outlet 432, then loosening the mini-submarine 44 to sink, starting the single-shaft linear cylinder 41, opening the circular door 421, starting the advancing mechanism 445, simultaneously opening the feeding door of the feeder 446 to evenly feed the EPSB engineering bacteria, enabling the weight of the submarine body 441 to just float to the height of the submarine inlet 433 in the process that the micro-submarine 44 moves from one end of the water tank 11 to the other end, closing the advancing mechanism 445, starting the retreating mechanism 444, enabling the micro-submarine 44 to return to the submarine bin 43 from the submarine inlet 433, and then supplementing the EPSB engineering bacteria again.

After the circulation purification is finished, the operation of the algae cleaning unit 2, the multistage aeration unit 3 and the sediment purification unit 4 is stopped, the algae cleaning unit 2 is disassembled and taken out, all the movable covers 52 are closed, and the daily use is recovered.

The above embodiments are only intended to illustrate the technical solutions of the present application and not to limit the same, and it will be apparent to those of ordinary skill in the art that modifications to the specific embodiments of the present application or equivalent substitutions of partial technical features can be made without departing from the spirit of the technical solutions of the present application, and all of the technical solutions of the present application should be covered by the scope of the claims.

Claims

1. A courtyard landscape water circulation system, comprising:

the main body (1), the main body (1) includes a water tank (11), a first transverse groove (1111) is arranged on one end face of the water tank (11), a second transverse groove (1112) is arranged below the first transverse groove (1111), a water return groove (17) is arranged outside the second transverse groove (1112), a fourth round hole (113) is arranged below one end face of the other end face of the water tank (11), a rack (115) is further arranged on the other side face of the water tank (11), a plurality of connecting rods (12) are arranged on the inner side face of the water tank (11), a conversion pipe (13) is arranged at one end of each connecting rod (12), a water collecting pipe (14) is arranged at the lower end of each conversion pipe (13), a plurality of water collecting branch pipes (141) are arranged at one end of each water collecting, the sprinkling irrigation mechanism (16), the fountain mechanism (15) is used for assembling at the upper end of the conversion pipe (13) when needing to use the landscape fountain, the sprinkling irrigation mechanism (16) is used for assembling at the upper end of the conversion pipe (13) when needing to sprinkle the plants around;

algae clearance unit (2), locate on main part (1), algae clearance unit (2) include second rotating electrical machines (21), second rotating electrical machines (21) output shaft one end is equipped with third gear (211) with rack (115) meshing, second rotating electrical machines (21) upper end is equipped with trailing bar (212), trailing bar (212) one end is equipped with horizontal pole (22), horizontal pole (22) one side array has a plurality of clearance forks (221), algae clearance unit (2) are still including locating drainage frame (25) of return water tank (17) top, algae clearance unit (2) are still including fourth rotating electrical machines (26) of locating pond (11) a side, the output shaft one end of fourth rotating electrical machines (26) is equipped with rotary rod (261), rotary rod (261) pot head is equipped with rotor plate (262) that matches with second transverse groove (1112).

2. The yard landscape water circulation system of claim 1, wherein a plurality of stop rods (116) are arrayed above the first cross slot (1111), and the stop rods (116) are used for intercepting algae cleaned on the cleaning fork (221); one end of the water return groove (17) is provided with a plurality of first fixing seats (171), and one end of the water frame (25) is provided with a plurality of second fixing seats (251) matched with the first fixing seats (171).

3. The garden landscape water circulation system according to claim 1, wherein a plurality of first circular holes (1121) are formed in an array on one side of the pool (11), a plurality of second circular holes (1122) matched with the first circular holes (1121) are formed above the first circular holes (1121), and a third circular hole (114) is further formed on one side of the pool (11).

4. The garden landscape water circulation system according to claim 1, wherein the sprinkling irrigation mechanism (16) comprises a connecting pipe (161) arranged on the conversion pipe (13), a first gear (1611) is arranged on the outer periphery of the upper end of the connecting pipe (161), a first rotating motor (162) is arranged on one end of the outer periphery of the connecting pipe (161), a second gear (1621) meshed with the first gear (1611) is arranged on one end of an output shaft of the first rotating motor (162), a water spray pipe (163) penetrates through the first gear (1611), and a plurality of water spray branch pipes (164) are arrayed on the lower end of the outer periphery of the water spray pipe (163).

5. The courtyard landscape water circulation system according to claim 1, wherein a driven rod (222) is arranged at one end of the cross rod (22), a slide bar (23) is arranged at one end of the driven rod (222), the driven rod (222) is in sliding fit with a sliding groove (231) formed in the slide bar (23), a dismounting block (232) is arranged at one end of the slide bar (23), a rotating ring (2321) is formed at one end of the dismounting block (232), an extending frame (233) is further arranged on one side face of the slide bar (23), a third rotating motor (24) is arranged on the extending frame (233), and an output shaft of the third rotating motor (24) penetrates through the rotating ring (2321).

6. The yard landscape water circulation system of claim 3, further comprising:

multistage aeration unit (3), locate main part (1) one end, multistage aeration unit (3) are including linear air fan (31), linear air fan (31) bottom is equipped with air-supply line (311), air-supply line (311) one end is equipped with air duct (33) that the level set up, multistage aeration unit (3) still include a plurality of centrifugal fan (32) that the array set up, centrifugal fan (32) one end is equipped with vertical air intake (321) that upwards set up, air duct (33) periphery side is located to the air outlet of centrifugal fan (32), third round hole (114) are worn to locate in air duct (33), air duct (33) one end periphery side array is equipped with a plurality of aeration pipes (34), aeration pipe (34) periphery side upper end is equipped with a plurality of aeration openings (35), aeration opening (35) up end array has a plurality of aeration micropore (351).

7. The yard landscape water circulation system of claim 6, further comprising:

bottom mud purification unit (4), locate main part (1) one end, bottom mud purification unit (4) is including single-axis straight line cylinder (41) of locating pond (11) one side, single-axis straight line cylinder (41) output shaft one end is equipped with sliding door (42), sliding door (42) are last, lower terminal surface array has many pairs of circular door (421), bottom mud purification unit (4) still includes a plurality of submarine cabins (43) that the array set up, dog-house (431) have been seted up on submarine cabin (43), submarine cabin (43) one end is equipped with submarine export (432), submarine export (432) top is equipped with submarine entry (433), submarine export (432) match with first round hole (1121), submarine entry (433) match with second round hole (1122), be equipped with miniature submarine (44) in submarine cabin (43).

8. The courtyard landscape water circulation system according to claim 7, wherein the miniature submarine (44) comprises a hollow submarine body (441), a feeding mechanism for adding EPSB engineering bacteria is arranged at the upper end of the submarine body (441), a fifth rotating motor (442) is arranged at one end of the feeding mechanism, a feeding door (443) is sleeved at one end of an output shaft of the fifth rotating motor (442), a forward mechanism (445) which is arranged along the length direction of the submarine body (441) and has an opposite output direction is arranged at the bottom end of the miniature submarine body (44), a backward mechanism (444) is arranged at the bottom end of the submarine body (441), a feeding device (446) is arranged at the bottom end of the feeding device (446), and a feeding door is arranged at the bottom.

9. The yard landscape water circulation system of claim 7, further comprising:

external unit (5), locate main part (1) periphery side, external unit (5) are including ground mechanism (51), ground mechanism (51) are including plant layer (511), plant layer (511) lower extreme is equipped with supporting layer (512), external unit (5) are still including running through on locating ground mechanism (51), a plurality of movable cover (52) of terminal surface down, movable cover (52) are used for matcing second rotating electrical machines (21), rack (115), drainage frame (25), linear air fan (31), air intake (321), dog-house (431), supporting layer (512) bottom end face array has a plurality of branch (53), branch (53) are located on the ground.

10. The yard landscape water circulation system of claim 9, wherein plants are planted on the upper end surface of the movable cover (52).