CN111976366A

CN111976366A - Landscape in garden

Info

Publication number: CN111976366A
Application number: CN202010845988.7A
Authority: CN
Inventors: 李秀明; 张迪; 华莹莹; 刘先知
Original assignee: Jiangsu Lanxin Garden Co ltd
Current assignee: Jiangsu Lanxin Garden Co ltd
Priority date: 2020-08-21
Filing date: 2020-08-21
Publication date: 2020-11-24

Abstract

The application relates to a garden rockery landscape, which comprises a water storage box and a rockery fixed in the water storage box, wherein a water outlet valve is embedded in the side wall of the water storage box; a water pump is fixed in the water storage box, and a water delivery pipe penetrating through the rockery is fixed at the water outlet end of the water pump; a square cavity is formed in the rockery; a power supply is fixed on the side wall of the square cavity; an adjusting mechanism for starting the water pump or driving the water outlet valve to open is arranged in the square cavity; the adjusting mechanism comprises a fixed shaft fixed on the inner bottom surface of the square cavity, a first bevel gear fixed at the top end of the fixed shaft and a rotating circular pipe rotatably arranged on the outer peripheral surface of the fixed shaft; a first L shaft is fixed on the peripheral surface of the rotating circular tube, a fixed tube is fixed at the top end of the first L shaft, and a second L shaft is rotatably mounted in the fixed tube; and one end of the second L shaft, which is far away from the fourth bevel gear, is fixedly provided with a butting shaft. This application has the effect of being convenient for carry out unified operation to the water pump with trade the water valve.

Description

Landscape in garden

Technical Field

The application relates to the field of gardens artificial hills, especially relate to a gardens artificial hillock view.

Background

At present, rockery has a strong landscaping function and is widely applied to landscape water. The water flows down from the top of the rockery, not only forms landscapes such as waterfalls, Yongquan and the like, but also has a certain aeration effect on the water body.

In the prior art, reference is made to a Chinese utility model with an authorization publication number of CN204702573U, which discloses an assembled artificial wetland rockery system, comprising a base, wherein the base is positioned at the bottom of the rockery system, and a plurality of artificial wetland units are arranged on the base; the center of the rockery system is provided with a water outlet pipe, the water outlet end of the water outlet pipe is higher than the rockery system, the water outlet pipe is connected with a plastic pipe, the plastic pipe is spirally arranged at the upper part of the rockery system, and the whole rockery system is covered by flowing water from top to bottom through a submersible pump. However, in the rockery system, the switch of the submersible pump needs to be manually controlled, and the waste of power resources can be caused by always turning on the submersible pump; meanwhile, a valve for changing water also needs to be manually controlled; therefore, the system lacks a switching mechanism for simultaneously operating the submersible pump and the water change valve, which causes inconvenience in the operation of the submersible pump and the water change valve.

In view of the above-mentioned related art, the inventor believes that there is a defect that it is inconvenient to operate the water pump and the water change valve in a unified manner.

Disclosure of Invention

In order to facilitate to the water pump and trade the water valve and carry out unified operation, this application provides a gardens artificial hillock view.

The application provides a gardens artificial hillock view adopts following technical scheme:

a garden rockery landscape comprises a water storage box and a rockery fixed in the water storage box, wherein a water outlet valve is embedded in the side wall of the water storage box; a water pump is fixed in the water storage box, and a water delivery pipe penetrating through the rockery is fixed at the water outlet end of the water pump; a square cavity is formed in the rockery; a power supply is fixed on the side wall of the square cavity; an adjusting mechanism for starting the water pump or driving the water outlet valve to open is arranged in the square cavity; the adjusting mechanism comprises a fixed shaft fixed on the inner bottom surface of the square cavity, a first bevel gear fixed at the top end of the fixed shaft and a rotating circular tube rotatably arranged on the outer peripheral surface of the fixed shaft; a first L shaft is fixed on the peripheral surface of the rotating circular tube, a fixed tube is fixed at the top end of the first L shaft, and a second L shaft is rotatably mounted in the fixed tube; and one end of the second L shaft, which is far away from the fourth bevel gear, is fixedly provided with a butting shaft.

Through adopting above-mentioned technical scheme, rotate the pipe and rotate the in-process and drive first L axle and rotate, first L axle drives fixed pipe and rotates, makes the butt axle use first bevel gear to rotate as the centre of a circle, realizes controlling water pump and outlet valve through the rotation of butt axle. Through set up intermediate mechanism between water pump and outlet valve, be convenient for unify the switching of adjusting and control water pump and outlet valve, improve the operation convenience.

Preferably, a motor is fixed to the inner bottom surface of the square cavity, a second bevel gear is fixed to the output end of the motor, and a third bevel gear meshed with the second bevel gear is fixed to the bottom end of the rotating circular tube.

Through adopting above-mentioned technical scheme, the motor provides electric power for the rotation of rotating the pipe, and the operator only need carry out the switch to the motor simultaneously and can realize controlling water change valve and water pump.

Preferably, a fourth bevel gear meshed with the first bevel gear is fixed at one end, close to the first bevel gear, of the second L-axis.

By adopting the technical scheme, the fixed pipe drives the fourth bevel gear to be meshed with the first bevel gear in the rotating process of the second L shaft, so that the second L shaft rotates around the first L shaft, and the butting shaft is turned over in the rotating process by taking the first bevel gear as the center of a circle.

Preferably, the water outlet valve comprises a valve shell embedded in the side wall of the water storage box and a connecting column suspended in the valve shell; four valve shafts are uniformly distributed on the peripheral surface of the connecting column, and one end of each valve shaft, which is far away from the connecting column, is rotatably connected with the inner peripheral surface of the valve shell; a fan-shaped valve is fixed on the peripheral surface of each valve shaft; an annular cavity is formed in the valve shell, and a bevel gear ring is rotatably mounted on one side, close to the water pump, of the annular cavity; and one end of each valve shaft, which is far away from the connecting column, is fixedly provided with a transmission bevel gear which is used for being meshed with the bevel gear ring.

By adopting the technical scheme, one of the transmission bevel gears can drive the bevel gear ring to rotate after rotating, and the bevel gear ring drives the other three transmission bevel gears to rotate, so that the four valve shafts synchronously rotate, the valve shafts rotate to drive the fan-shaped valves to rotate, and the water outlet valves are opened and closed.

Preferably, a first driving assembly for driving the transmission bevel gear to rotate is arranged in the square cavity; the first driving assembly comprises a transmission shaft fixed at the top of the transmission bevel gear, a transmission gear fixed at the top of the peripheral surface of the transmission shaft, an installation through hole formed in one side of the rockery close to the water outlet valve, and a first rack which is arranged in the installation through hole in an axial sliding manner along the valve shell and is used for being meshed with the transmission gear; a first abutting part is fixed on one side, close to the fixed shaft, of the first rack, guide pieces are fixed on two sides of the first abutting part respectively, two guide shafts are fixed on one side, close to the water outlet valve, of the square cavity, and each guide piece is connected with the guide shafts in a sliding mode along the length direction of the first rack.

By adopting the technical scheme, the first abutting connection piece drives the first rack to move in the process of moving to one side close to the transmission gear, the first rack drives the transmission gear to rotate, and the transmission gear drives the transmission bevel gear to rotate through the transmission shaft, so that the outlet valve is opened through the abutting connection shaft.

Preferably, one side, far away from the fixed shaft, of each guide plate is fixedly provided with a first spring, and one end, far away from the guide plate, of each first spring is fixedly connected with the side wall of the square cavity.

By adopting the technical scheme, when the first abutting part moves towards one side close to the transmission gear, the first spring is in a compressed state, the first spring applies elastic force to one side far away from the transmission gear to the guide sheet, and the first abutting part is driven to reset towards one side far away from the transmission gear through the first spring.

Preferably, an inclined surface for abutting against the abutting shaft is formed on one side, close to the fixed shaft, of the first abutting piece.

Through adopting above-mentioned technical scheme, the butt axle supports through the inclined plane and presses first butt piece, is convenient for promote first butt piece through the butt axle and to being close to transmission gear one side and remove.

Preferably, a second driving assembly for driving the water pump to be electrically connected with a power supply is arranged in the square cavity; the second driving assembly comprises a square box fixed on the side wall of the square cavity, two fixing pieces fixed on the inner bottom surface of the square box and two internal threaded pipes rotatably mounted on the opposite inner sides of the two fixing pieces respectively; outer toothed rings are respectively fixed on the outer peripheral surfaces of the two inner threaded pipes, and two second racks which are used for being meshed with the outer toothed rings are respectively arranged on one side, far away from the fixed shaft, in the square box in a sliding mode along the vertical direction; sliding pieces are fixed at the bottoms of the two second racks, and abutting pieces used for abutting against the abutting shafts are fixed on one sides of the sliding pieces, close to the fixed shafts; and a power assembly for supplying power to the water pump is arranged between the two internal thread pipes.

By adopting the technical scheme, when the abutting shaft abuts against the abutting sheet, the abutting sheet can be abutted downwards, the sliding piece drives the two second racks to move downwards, and therefore the outer gear ring is driven to rotate through the second racks; the outer ring gear can drive the internal thread pipe to rotate when rotating, and the power assembly is started through the rotation of the internal thread pipe, so that power is supplied to the water pump.

Preferably, a second spring is fixed at the top end of each second rack, and the top end of each second spring is fixedly connected with the inner top surface of the square box.

Through adopting above-mentioned technical scheme, when the second rack moved down, the second spring was in tensile state, and the second spring applys ascending elasticity to the second rack, is convenient for reset upwards through second spring drive second rack.

Preferably, the power assembly comprises a first lead screw and a second lead screw, wherein the coins are arranged in the two internal thread pipes; the first lead screw and the second lead screw are respectively in threaded connection with the internal threaded pipe; a first lead wire electrically connected with a power supply penetrates through the first lead screw, and a switch moving piece is fixed at one end of the first lead screw, which is far away from the power supply; one end of the first lead, which is far away from the power supply, is electrically connected with the switch moving sheet; the switch stator is fixed to one end, far away from the power, of the second lead screw, a second lead wire penetrates through the second lead screw, one end, close to the power, of the second lead wire is electrically connected with the switch stator, and one end, far away from the power, of the second lead wire is electrically connected with the water pump.

Through adopting above-mentioned technical scheme, can drive first lead screw and second lead screw respectively when two internal thread pipes rotate and remove in opposite directions to make switch moving plate and switch stator switch on, the power of being convenient for is the water pump power supply.

To sum up, this application includes following at least one gardens artificial hillock view beneficial technical effect:

the intermediate mechanism is arranged between the water pump and the water outlet valve, so that the opening and closing of the water pump and the water outlet valve can be conveniently and uniformly regulated and controlled, and the operation convenience is improved;

the first abutting connection piece drives the first rack to move in the process of moving to one side close to the transmission gear, the first rack drives the transmission gear to rotate, the transmission gear drives the transmission bevel gear to rotate through the transmission shaft, and therefore the water outlet valve is opened through the abutting connection shaft;

through setting up second drive assembly, rotate through the internal thread pipe and drive first lead screw and second lead screw and remove in opposite directions to make switch rotor and switch stator switch on, the power of being convenient for is the water pump power supply.

Drawings

FIG. 1 is a schematic structural diagram of a rockery landscape according to an embodiment of the present application.

Fig. 2 is a sectional view of the rockery landscape of the application example.

Fig. 3 is an enlarged schematic view at a in fig. 2.

Fig. 4 is an enlarged schematic view at B in fig. 2.

Fig. 5 is an enlarged schematic view at C in fig. 2.

Fig. 6 is a schematic structural diagram of a second driving assembly of the claimed embodiment.

Description of reference numerals: 1. a water storage box; 11. a column; 12. a water delivery pipe; 2. rockery; 21. a square cavity; 22. a water delivery hole; 23. a fourth bevel gear; 24. a butt joint shaft; 3. an adjustment mechanism; 31. a fixed shaft; 32. rotating the circular tube; 33. a first bevel gear; 34. a motor; 35. a second bevel gear; 36. a third bevel gear; 37. a first L axis; 38. a fixed tube; 39. a second L axis; 4. a water outlet valve; 41. a valve housing; 42. connecting columns; 43. a connecting rod; 44. a valve shaft; 45. a fan-shaped valve; 46. an annular cavity; 47. a conical gear ring; 48. a drive bevel gear; 5. a first drive assembly; 51. a drive shaft; 52. a transmission gear; 53. mounting a through hole; 54. a first rack; 55. a first abutting member; 56. a guide piece; 57. a guide shaft; 58. a first spring; 59. a bevel; 6. a second drive assembly; 61. a square box; 62. a fixing member; 63. an internally threaded tube; 64. an outer ring gear; 65. a second rack; 66. a sliding member; 67. abutting the sheet; 68. a second spring; 7. a water pump; 71. a second lead screw; 72. a first lead screw; 73. a second conductive line.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses gardens artificial hillock view. Referring to fig. 1 and 2, the rockery landscape includes a water storage box 1, three columns 11 fixed to the inner bottom surface of the water storage box 1, and rockers 2 fixed to the tops of the three columns 11. The side wall of the water storage box 1 is embedded with a water outlet valve 4. A water pump 7 is fixed on the inner bottom surface of the water storage box 1, and a water delivery pipe 12 is fixed at the water outlet end of the water pump 7; the bottom of the rockery 2 is provided with a water delivery hole 22 which upwards penetrates through the rockery 2, and the water delivery pipe 12 is arranged in the water delivery hole 22 in a penetrating way. Water in the water storage box 1 is guided into the water conveying pipe 12 through the water pump 7 and is conveyed upwards to the top of the rockery 2 through the water conveying pipe 12, and therefore vegetation on the peripheral surface of the rockery 2 is irrigated.

Referring to fig. 2 and 3, a square cavity 21 is formed in the rockery 2. The power supply is fixed on the side wall of the square cavity 21. The square cavity 21 is internally provided with an adjusting mechanism 3 for starting the water pump 7 or driving the water outlet valve 4 to be opened. The adjusting mechanism 3 includes a fixed shaft 31 fixed to the inner bottom surface of the square cavity 21, a first bevel gear 33 fixed to the tip end of the fixed shaft 31, and a rotating circular tube 32 rotatably mounted to the outer peripheral surface of the fixed shaft 31. A motor 34 is fixed on the inner bottom surface of the square cavity 21, a second bevel gear 35 is fixed at the output end of the motor 34, and a third bevel gear 36 meshed with the second bevel gear 35 is fixed at the bottom end of the rotating circular tube 32; the third bevel gear 36 is sleeved around the fixed shaft 31. The second bevel gear 35 is driven by the motor 34 to rotate, and the third bevel gear 36 is driven by the second bevel gear 35 to rotate in the process of meshing with the third bevel gear 36, so as to drive the rotary round pipe 32 to rotate. A first L shaft 37 is fixed on the outer peripheral surface of the rotating circular tube 32, a fixed tube 38 is fixed at the top end of the first L shaft 37, and a second L shaft 39 is rotatably mounted in the fixed tube 38; a fourth bevel gear 23 for meshing with the first bevel gear 33 is fixed to one end of the second L-axis 39 near the first bevel gear 33. An abutment shaft 24 is fixed to one end of the second L-shaft 39 remote from the fourth bevel gear 23. The rotating round tube 32 drives the first L-shaped shaft 37 to rotate in the rotating process, the first L-shaped shaft 37 drives the fixed tube 38 to rotate, the fixed tube 38 drives the second L-shaped shaft 39 to rotate, and the fourth bevel gear 23 is meshed with the first bevel gear 33 in the rotating process, so that the second L-shaped shaft 39 rotates around the first L-shaped shaft 37 in the rotating process, and the abutting shaft 24 is turned over in the rotating process with the first bevel gear 33 as the circle center.

Referring to fig. 2 and 4, the outlet valve 4 includes a valve housing 41 embedded in the sidewall of the water storage box 1 and a connecting column 42 suspended at the center of the valve housing 41. The cross section of the valve shell 41 is circular; two connecting rods 43 are fixed on the outer peripheral surface of the connecting column 42, and one end of each connecting rod 43, which is far away from the connecting column 42, is fixedly connected with the inner peripheral surface of the valve housing 41. Four valve shafts 44 are uniformly distributed on the outer peripheral surface of the connecting column 42, and one end of each valve shaft 44, which is far away from the connecting column 42, is rotatably connected with the inner peripheral surface of the valve shell 41; a sector valve 45 is fixed to the outer peripheral surface of each valve shaft 44. An annular cavity 46 is formed in the valve shell 41, and a conical gear ring 47 is rotatably mounted on one side, close to the water pump 7, of the annular cavity 46. A drive bevel gear 48 for meshing with a bevel gear ring 47 is fixed to one end of each valve shaft 44 remote from the connecting column 42. After rotating, one of the transmission bevel gears 48 drives the bevel gear ring 47 to rotate, and the bevel gear ring 47 drives the other three transmission bevel gears 48 to rotate, so that the four valve shafts 44 synchronously rotate, the valve shafts 44 rotate to drive the fan-shaped valves 45 to rotate, and the outlet valve 4 is opened and closed.

Referring to fig. 2 and 5, a first driving assembly 5 for driving the transmission bevel gear 48 to rotate is disposed in the square cavity 21. The first driving assembly 5 comprises a transmission shaft 51 fixed at the top of the transmission bevel gear 48 above the fixed column, a transmission gear 52 fixed at the top of the outer peripheral surface of the transmission shaft 51, a mounting through hole 53 opened at one side of the rockery 2 close to the water outlet valve 4, and a first rack 54 slidably arranged in the mounting through hole 53 along the axial direction of the valve housing 41 and engaged with the transmission gear 52. A first abutting part 55 is fixed on one side, close to the fixed shaft 31, of the first rack 54, guide pieces 56 are fixed on two sides of the first abutting part 55 respectively, two guide shafts 57 are fixed on one side, close to the water outlet valve 4, of the square cavity 21, and each guide piece 56 is connected with the guide shaft 57 in a sliding mode along the length direction of the first rack 54. A first spring 58 is fixed on one side of each guide plate 56, which is far away from the fixed shaft 31, and one end of each first spring 58, which is far away from the guide plate 56, is fixedly connected with the side wall of the square cavity 21; the first spring 58 is sleeved on the periphery of the guide shaft 57; when the first abutting member 55 moves to the side close to the transmission gear 52, the first spring 58 is in a compressed state, and the first spring 58 applies an elastic force to the guide piece 56 to the side far from the transmission gear 52, so that the first abutting member 55 is driven to return to the side far from the transmission gear 52 by the first spring 58. The first contact member 55 has a slope 59 formed on a side thereof closer to the fixed shaft 31 for contacting the contact shaft 24. The abutting shaft 24 abuts against the first abutting piece 55 through the inclined surface 59 and pushes the first abutting piece 55 to move towards the side close to the transmission gear 52; the first abutting part 55 drives the first rack 54 to move in the moving process, the first rack 54 drives the transmission gear 52 to rotate, and the transmission gear 52 drives the transmission bevel gear 48 to rotate through the transmission shaft 51.

Referring to fig. 2 and 6, a second driving assembly 6 for driving the water pump 7 to be electrically connected with a power supply is arranged in the square cavity 21. The second driving assembly 6 includes a square box 61 fixed on the side wall of the square cavity 21, two fixing members 62 fixed on the inner bottom surface of the square box 61, and two internal threaded pipes 63 rotatably mounted on the inner sides of the two fixing members 62. Outer toothed rings 64 are respectively fixed on the peripheral surfaces of the two internal threaded pipes 63, and two second racks 65 which are used for being meshed with the outer toothed rings 64 are respectively arranged in the square box 61 and far away from one side of the fixed shaft 31 in a sliding mode along the vertical direction. Every second rack 65 all runs through square box 61 bottom surface, and two second rack 65 bottoms are fixed with glide 66, and glide 66 is close to fixed axle 31 one side and is fixed with the butt piece 67 that is used for with butt axle 24 butt. And a second spring 68 is fixed at the top end of each second rack 65, and the top end of each second spring 68 is fixedly connected with the inner top surface of the square box 61. When the abutting shaft 24 abuts against the abutting sheet 67, the abutting sheet 67 is pressed downwards, and the sliding member 66 is pushed to move downwards; when the sliding piece 66 moves downwards, the two second racks 65 are driven to move downwards, so that the outer gear ring 64 is driven to rotate by the second racks 65; the external ring gear 64 rotates to drive the internal threaded tube 63 to rotate.

Referring to fig. 2 and 6, a first lead screw 72 and a second lead screw 71 are respectively connected to the two internal threaded pipes 63 in a threaded manner; a first lead wire electrically connected with the power supply penetrates through the first lead screw 72, and a switch moving piece is fixed at one end of the first lead screw 72, which is far away from the power supply; one end of the first lead wire, which is far away from the power supply, is electrically connected with the switch moving sheet. A switch stator is fixed at one end of the second lead screw 71 far away from the power supply, a second lead wire 73 penetrates through the second lead screw 71, one end of the second lead wire 73 close to the power supply is electrically connected with the switch stator, and one end of the second lead wire 73 far away from the power supply is electrically connected with the water pump 7. When the two internal threaded pipes 63 rotate, the first lead screw 72 and the second lead screw 71 are respectively driven to move oppositely, so that the switch moving piece is conducted with the switch fixed piece, and a power supply can supply power to the water pump 7 conveniently. Guide bars are respectively fixed on the peripheral surfaces of the first lead screw 72 and the second lead screw 71; circular through holes for accommodating the first lead screw 72 and the second lead screw 71 are respectively formed in the opposite inner sides of the square box 61, and a guide groove is formed in the inner peripheral surface of each circular through hole; every gib block all slides along square box 61 length direction and sets up in the guide way.

The implementation principle of a gardens artificial hillock view of the embodiment of this application does:

after the motor 34 is started, the rotating circular tube 32 drives the first L-axis 37 to rotate, the first L-axis 37 drives the fixed tube 38 to rotate, the fixed tube 38 drives the second L-axis 39 to rotate, and the abutting shaft 24 rotates by taking the first bevel gear 33 as the center of a circle.

When the abutting shaft 24 abuts against the abutting sheet 67, the abutting sheet 67 is pressed downwards, and the sliding member 66 is pushed to move downwards; when the sliding piece 66 moves downwards, the two second racks 65 are driven to move downwards, so that the outer gear ring 64 is driven to rotate by the second racks 65; the external ring gear 64 rotates to drive the internal threaded tube 63 to rotate. When the two internal threaded pipes 63 rotate, the first lead screw 72 and the second lead screw 71 are respectively driven to move oppositely, so that the switch moving piece is conducted with the switch fixed piece, and a power supply can supply power to the water pump 7 conveniently. The water pump 7 guides the water in the water storage box 1 into the water conveying pipe 12 and conveys the water upwards to the top of the rockery 2 through the water conveying pipe 12, so that the vegetation on the peripheral surface of the rockery 2 is irrigated.

The abutting shaft 24 abuts against the first abutting piece 55 through the inclined surface 59 and pushes the first abutting piece 55 to move towards the side close to the transmission gear 52; the first abutting part 55 drives the first rack 54 to move in the moving process, the first rack 54 drives the transmission gear 52 to rotate, and the transmission gear 52 drives the transmission bevel gear 48 to rotate through the transmission shaft 51. After rotating, one of the transmission bevel gears 48 drives the bevel gear ring 47 to rotate, and the bevel gear ring 47 drives the other three transmission bevel gears 48 to rotate, so that the four valve shafts 44 synchronously rotate, the valve shafts 44 rotate to drive the fan-shaped valves 45 to rotate, and the outlet valve 4 is opened and closed.

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

1. The utility model provides a gardens artificial hillock view, includes water storage box (1) and is fixed in artificial hillock (2) in water storage box (1), its characterized in that: a water outlet valve (4) is embedded in the side wall of the water storage box (1); a water pump (7) is fixed in the water storage box (1), and a water delivery pipe (12) penetrating through the rockery (2) is fixed at the water outlet end of the water pump (7); a square cavity (21) is formed in the rockery (2); a power supply is fixed on the side wall of the square cavity (21); an adjusting mechanism (3) for starting the water pump (7) or driving the water outlet valve (4) to open is arranged in the square cavity (21); the adjusting mechanism (3) comprises a fixed shaft (31) fixed on the inner bottom surface of the square cavity (21), a first bevel gear (33) fixed at the top end of the fixed shaft (31) and a rotating circular tube (32) rotatably mounted on the outer peripheral surface of the fixed shaft (31); a first L shaft (37) is fixed on the peripheral surface of the rotating circular tube (32), a fixed tube (38) is fixed at the top end of the first L shaft (37), and a second L shaft (39) is rotatably mounted in the fixed tube (38); and one end of the second L-shaped shaft (39), which is far away from the fourth bevel gear (23), is fixedly provided with a butting shaft (24).

2. The landscape rockery landscape architecture as claimed in claim 1, wherein: a motor (34) is fixed on the inner bottom surface of the square cavity (21), a second bevel gear (35) is fixed at the output end of the motor (34), and a third bevel gear (36) meshed with the second bevel gear (35) is fixed at the bottom end of the rotating circular tube (32).

3. The landscape rockery landscape architecture as claimed in claim 1, wherein: and a fourth bevel gear (23) which is used for being meshed with the first bevel gear (33) is fixed at one end of the second L shaft (39), which is close to the first bevel gear (33).

4. The landscape rockery landscape architecture as claimed in claim 1, wherein: the water outlet valve (4) comprises a valve shell (41) embedded in the side wall of the water storage box (1) and a connecting column (42) suspended in the valve shell (41); four valve shafts (44) are uniformly distributed on the outer peripheral surface of the connecting column (42), and one end of each valve shaft (44) far away from the connecting column (42) is rotatably connected with the inner peripheral surface of the valve shell (41); a fan-shaped valve (45) is fixed on the peripheral surface of each valve shaft (44); an annular cavity (46) is formed in the valve shell (41), and a conical gear ring (47) is rotatably mounted on one side, close to the water pump (7), of the annular cavity (46); and a transmission bevel gear (48) used for being meshed with the bevel gear ring (47) is fixed at one end of each valve shaft (44) far away from the connecting column (42).

5. The landscape rockery landscape architecture as claimed in claim 1, wherein: a first driving component (5) for driving a transmission bevel gear (48) to rotate is arranged in the square cavity (21); the first driving assembly (5) comprises a transmission shaft (51) fixed to the top of a transmission bevel gear (48), a transmission gear (52) fixed to the top of the outer peripheral surface of the transmission shaft (51), an installation through hole (53) formed in one side, close to the water outlet valve (4), of the rockery (2), and a first rack (54) which is arranged in the installation through hole (53) in an axial sliding mode along the valve shell (41) and is used for being meshed with the transmission gear (52); a first abutting part (55) is fixed on one side, close to the fixed shaft (31), of the first rack (54), guide plates (56) are fixed on two sides of the first abutting part (55) respectively, two guide shafts (57) are fixed on one side, close to the water outlet valve (4), of the square cavity (21), and each guide plate (56) is connected with the corresponding guide shaft (57) in a sliding mode along the length direction of the first rack (54).

6. The landscape rockery landscape architecture as claimed in claim 5, wherein: and one side of each guide sheet (56), which is far away from the fixed shaft (31), is fixedly provided with a first spring (58), and one end of each first spring (58), which is far away from the guide sheet (56), is fixedly connected with the side wall of the square cavity (21).

7. The landscape rockery landscape architecture as claimed in claim 5, wherein: an inclined surface (59) used for being abutted with the abutting shaft (24) is formed on one side, close to the fixed shaft (31), of the first abutting piece (55).

8. The landscape rockery landscape architecture as claimed in claim 1, wherein: a second driving assembly (6) for driving the water pump (7) to be electrically connected with a power supply is arranged in the square cavity (21); the second driving assembly (6) comprises a square box (61) fixed on the side wall of the square cavity (21), two fixing pieces (62) fixed on the inner bottom surface of the square box (61) and two internal threaded pipes (63) rotatably mounted on the opposite inner sides of the two fixing pieces (62) respectively; outer toothed rings (64) are respectively fixed on the outer peripheral surfaces of the two internal threaded pipes (63), and two second racks (65) meshed with the outer toothed rings (64) are respectively arranged in the square box (61) in a vertically sliding manner on one side away from the fixed shaft (31); sliding pieces (66) are fixed at the bottoms of the two second racks (65), and abutting pieces (67) for abutting against the abutting shaft (24) are fixed on one sides, close to the fixed shaft (31), of the sliding pieces (66); and a power assembly for supplying power to the water pump (7) is arranged between the two internal thread pipes (63).

9. The landscape rockery landscape architecture as claimed in claim 8, wherein: and a second spring (68) is fixed at the top end of each second rack (65), and the top end of each second spring (68) is fixedly connected with the inner top surface of the square box (61).

10. The landscape rockery landscape architecture as claimed in claim 8, wherein: the power assembly comprises a first lead screw (72) and a second lead screw (71), wherein coins are arranged in the two internal thread pipes (63); the first lead screw (72) and the second lead screw (71) are respectively in threaded connection with the internal threaded pipe (63); a first lead wire electrically connected with a power supply penetrates through the first lead screw (72), and a switch moving piece is fixed at one end, far away from the power supply, of the first lead screw (72); one end of the first lead, which is far away from the power supply, is electrically connected with the switch moving sheet; the switch stator is fixed to one end, far away from the power supply, of the second lead screw (71), a second lead wire (73) penetrates through the second lead screw (71), one end, close to the power supply, of the second lead wire (73) is electrically connected with the switch stator, and one end, far away from the power supply, of the second lead wire (73) is electrically connected with the water pump (7).