CN113546804A - Swinging fountain - Google Patents

Abstract

The application relates to the technical field of fountains, in particular to a swing fountain which comprises a mounting bracket, a swing device fixedly connected to the middle position of the mounting bracket and a spray head fixedly connected to a swing sprayer device; the swinging device comprises a supporting pipe fixedly connected to the bottom of the mounting bracket, a first adjusting pipe rotatably connected to the end of the supporting pipe, a second adjusting pipe rotatably connected to the end of the first adjusting pipe, a third adjusting pipe rotatably connected to the end of the second adjusting pipe, and a driving mechanism for changing the angle of the spray head. In certain extent, the staff just can adjust the deflection angle and the direction of deflecting of shower nozzle as long as the turned angle of controlling first control tube, second control tube and third control tube, this application has and makes the shower nozzle deflect more in a flexible way, increases the effect of the sight of fountain.

Description

Swinging fountain

Technical Field

The application relates to the technical field of fountains, in particular to a swing fountain.

Background

The fountain is spring water which is sprayed out of the ground from the ground, and is particularly a manual water spraying device at present. The fountain is a water landscape which is constructed by manpower or in a natural fountain pool and sprays beautiful water to be enjoyed by people. The fountain is an important landscape, is a waterscape art, embodies the combination of moving and static, forms bright and lively atmosphere and brings aesthetic enjoyment to people.

With respect to the related art among the above, the inventors consider that there is a defect: most fountain devices in the related art can only swing in one plane during use, so that the angle of a water column sprayed by the fountain is single, and the ornamental value of the fountain is reduced.

Disclosure of Invention

In order to enable the fountain device to flexibly change the angle of a water jet column in the performance process and improve the ornamental value of the fountain, the application provides a swing type fountain.

The application provides a formula fountain sways adopts following technical scheme:

a swing fountain comprises a mounting bracket, a swing device fixedly connected to the middle position of the mounting bracket and a spray head fixedly connected to a swing sprayer device;

the swinging device comprises a supporting pipe fixedly connected to the bottom of the mounting bracket, a first adjusting pipe rotationally connected to the end part of the supporting pipe, a second adjusting pipe rotationally connected to the end part of the first adjusting pipe, a third adjusting pipe rotationally connected to the end part of the second adjusting pipe and a driving mechanism used for changing the angle of the spray head; the end face of the first adjusting pipe close to the second adjusting pipe, the end face of the third adjusting pipe close to the second adjusting pipe and the two end faces of the second adjusting pipe are not perpendicular to the axes of the first adjusting pipe, the second adjusting pipe and the third adjusting pipe; the driving mechanism is provided with three, driving mechanism is fixed connection respectively on stay tube, first control tube, second control tube, driving mechanism is used for driving first control tube, second control tube and third control tube to rotate.

By adopting the technical scheme, the axes of the supporting tube, the first adjusting tube, the second adjusting tube and the third adjusting tube are all overlapped in the initial state, when the spray angle of the spray head needs to be adjusted, a worker starts the three driving mechanisms which respectively drive the first adjusting pipe, the second adjusting pipe and the third adjusting pipe to rotate, because the contact surfaces of the first adjusting pipe, the second adjusting pipe and the third adjusting pipe are not vertical to the respective axes, when the three rotate, the axes of the three have a certain included angle, the nozzle at the end of the third adjusting pipe changes the angle and the direction, in a certain range, the worker can adjust the deflection angle and the deflection direction of the spray head by controlling the rotation angles of the first adjusting pipe, the second adjusting pipe and the third adjusting pipe, so that the spray head can deflect more flexibly, and the ornamental value of the fountain is increased.

Optionally, a first connecting pipe is fixedly connected to the end surface of the first adjusting pipe close to the supporting pipe, a first connecting groove is formed in the end surface of the supporting pipe, the first connecting pipe is arranged inside the first connecting groove, and a first sealing bearing is arranged between the inner wall of the first connecting groove and the outer wall of the first connecting pipe.

Through adopting above-mentioned technical scheme, first control tube rotates the tip of installing at the stay tube, staff control first control tube when the shower nozzle certain angle that deflects, make first control tube rotate on the terminal surface of stay tube to change the spray angle of shower nozzle, increase the sight of fountain, first sealed bearing can seal the gap between first connecting pipe and the first connecting groove, avoid water to flow from the joint line between first control tube and the stay tube, further improve the sight of fountain.

Optionally, a first connecting ring is fixedly connected to an end surface of the first adjusting pipe close to the second adjusting pipe, a second connecting ring is fixedly connected to an end surface of the second adjusting pipe close to the first adjusting pipe, and a second sealing bearing is arranged between the first connecting ring and the second connecting ring.

Through adopting above-mentioned technical scheme, because the connection face of first control tube and second control tube is not perpendicular to axis between them, so the shape of connecting the face inner wall between them is oval, sets up first go-between and second go-between in the outside of connecting the face and can make the second control tube rotate smoothly to make things convenient for the staff to change the angle of shower nozzle, the leakproofness between first control tube and the second control tube can be guaranteed to the second sealed bearing.

Optionally, a third connecting ring is fixedly connected to an end portion, close to the third adjusting pipe, of the second adjusting pipe, a fourth connecting ring is fixedly connected to an end portion, close to the second adjusting pipe, of the third adjusting pipe, the third connecting ring is rotatably connected with the fourth connecting ring, and a third sealing bearing is arranged between the third connecting ring and the fourth connecting ring.

Through adopting above-mentioned technical scheme, the third regulating pipe can increase the deflection angle of shower nozzle, makes the shower nozzle can be more nimble, further increases the sight of fountain.

Optionally, the end portion of the support tube close to the first adjusting tube, the side surface of the second connecting ring and the side surface of the fourth connecting ring are fixedly connected with driving gear rings, the driving mechanism is perpendicular to the driving gear rings, and the driving mechanism is meshed with the driving gear rings.

Through adopting above-mentioned technical scheme, set up the drive ring gear on stay tube, second go-between and fourth go-between, when actuating mechanism during operation, actuating mechanism can rotate through drive ring gear to drive first regulating pipe, second regulating pipe and third regulating pipe and rotate, and then adjust the angle and the orientation of shower nozzle.

Optionally, the driving mechanism comprises a driving motor fixedly connected to the outer side surface of the first adjusting pipe, the outer side surface of the second adjusting pipe or the outer side surface of the third adjusting pipe, and a driving gear fixedly connected to a power output shaft of the driving motor; the driving gear is externally meshed with the driving gear ring.

Through adopting above-mentioned technical scheme, when driving motor during operation, driving motor's power output shaft drives drive gear and rotates, can drive the drive ring gear and rotate when drive gear rotates, and the drive ring gear drives first control tube or second control tube or third control tube and rotates to the angle and the orientation of head are met in the regulation.

Optionally, the axis collineation of first regulation pipe, second regulation pipe and third regulation pipe, the terminal surface that the first regulation pipe is close to the second regulation pipe, second regulation pipe and the terminal surface that the third regulation pipe is close to the second regulation pipe all adjust a tub symmetry about the second, the axis of first regulation pipe and the axis coincidence of stay tube, the axis of the terminal surface perpendicular to third regulation pipe that the second regulation pipe was kept away from to the third regulation pipe.

Through adopting above-mentioned technical scheme, the terminal surface that is close to the terminal surface of second control tube with first control tube, the terminal surface of second control tube and the terminal surface that the third control tube is close to the second control tube all set up about the second control tube symmetry and can conveniently calculate the deflection angle and the orientation of shower nozzle, reduce the degree of difficulty of the angle and the orientation of staff's control shower nozzle.

Optionally, the shower nozzle includes that fixed connection keeps away from the spray tube and the spout adjustment mechanism of fixed connection at the spray tube exit of second control tube tip at the third control tube, spout adjustment mechanism is including articulating at the spray tube exit and adjusting outer lane, fixed connection at the regulation inner circle and the fixed connection drive assembly on the spray tube lateral surface of spray tube exit, the lateral surface butt of adjusting the inner circle is on the medial surface of adjusting the outer lane, it has certain elasticity to adjust the inner circle, drive assembly articulates on the lateral surface of adjusting the outer lane.

Through adopting above-mentioned technical scheme, the staff can be through the opening size of spout adjustment mechanism control shower nozzle to adjust shower nozzle spun rivers pressure, and then control shower nozzle and spray the size and the height of water column, can make the shower nozzle can spray multiple water column, further increased the sight of fountain.

Optionally, adjust the outer lane and include a plurality of fly leafs that articulate on spray tube outlet end face, the one end of fly leaf articulates on the terminal surface of spray tube, it includes the elastic plate of fixed connection on spray tube outlet end face to adjust the inner circle, fly leaf and elastic plate all set up along the circumference, and are adjacent between the fly leaf and adjacent all be provided with the clearance between the elastic plate, elastic plate and fly leaf dislocation set, the elastic plate butt is in the gap department of fly leaf.

By adopting the technical scheme, the movable plates are arranged on the outer ring, the elastic plates are arranged on the inner ring, and the movable plates and the elastic plates are arranged at intervals due to the clearance left between the adjacent movable plates and the adjacent elastic plates, so that the movable plates and the elastic plates can be complemented, and the gap between the adjusting inner ring and the adjusting outer ring is blocked. When the worker pushes the movable plate in the adjusting outer ring to rotate towards the axial direction of the spray pipe, the movable plate presses the elastic plate to deform the elastic plate, so that the outlet diameter of the spray pipe is reduced, otherwise, the movable plate rotates in the opposite direction, and the elastic plate is tightly abutted against the inner wall of the movable plate under the action of the elasticity of the elastic plate, so that the diameter of the opening of the spray pipe is enlarged.

Optionally, the driving assembly comprises a mounting block fixedly connected to the outer side surface of the movable plate, a mounting ring fixedly connected to the third adjusting pipe, and a cylinder with one end hinged to the mounting block, the other end of the cylinder is hinged to the mounting ring, and the cylinders are in one-to-one correspondence with the movable plates.

Through adopting above-mentioned technical scheme, the staff can drive the position that the installation piece removed the control fly leaf through the piston rod of cylinder to the diameter of control spray tube opening, when the piston rod of cylinder promoted the fly leaf, the opening diameter of adjusting the outer lane and adjusting the inner circle diminishes, and when the piston rod pulling fly leaf of cylinder, the opening diameter grow of adjusting the inner circle and adjusting the outer lane.

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

1. workers can control the first adjusting pipe, the second adjusting pipe and the third adjusting pipe to rotate through the driving mechanism to control the deflection angle and the orientation of the spray head, so that the angle and the orientation of a water column sprayed by the spray pipe are increased, the style of the fountain is increased, and the ornamental value of the fountain is improved;

2. the staff can control the shower nozzle open-ended diameter through spout adjustment mechanism to the thickness and the height of control shower nozzle injection water column further increase the injection pattern of fountain through spout adjustment mechanism, further increase the sight of fountain.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a swing device in an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a showerhead in an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a spout adjusting mechanism in the embodiment of the present application.

Description of reference numerals: 1. mounting a bracket; 2. a swing device; 21. supporting a tube; 211. a first connecting groove; 22. a first regulating tube; 221. a first connecting pipe; 222. a first sealed bearing; 223. a first connecting ring; 23. a second regulating tube; 231. a second connection ring; 232. a second sealed bearing; 233. a third connecting ring; 24. a third regulating tube; 241. a fourth connecting ring; 242. a third sealed bearing; 25. a drive mechanism; 251. a drive motor; 252. a drive gear; 26. a drive gear ring; 3. a spray head; 31. a nozzle; 32. a spout adjusting mechanism; 321. adjusting the outer ring; 3211. a movable plate; 322. adjusting the inner ring; 3221. an elastic plate; 323. a drive assembly; 3231. mounting blocks; 3232. a mounting ring; 3233. and a cylinder.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a swing type fountain.

Referring to fig. 1, a rocking fountain includes a mounting bracket 1 installed in water, a rocking device 2 installed on the mounting bracket 1, and a nozzle 3 installed at an end of the rocking device 2. The swing device 2 comprises a supporting pipe 21 welded at the middle position of the mounting bracket 1, a first adjusting pipe 22 rotatably mounted at the top of the supporting pipe 21, a second adjusting pipe 23 rotatably mounted at the top of the first adjusting pipe 22, a third adjusting pipe 24 rotatably mounted at the top of the second adjusting pipe 23, and a driving mechanism 25 for driving the first adjusting pipe 22, the second adjusting pipe 23 and the third adjusting pipe 24 to rotate. The supporting pipe 21 is connected with a fountain water supply system, and the spray head 3 is fixedly arranged at the top of the third adjusting pipe 24.

The worker can drive the first adjusting pipe 22, the second adjusting pipe 23 and the third adjusting pipe 24 to rotate through the driving mechanism 25, so that the angle of the nozzle 3 can be changed within a certain space range, and the outlet diameter of the nozzle 3 can be adjusted. The staff adjusts the angle of shower nozzle 3 through actuating mechanism 25 to change the direction that shower nozzle 3 sprays the water column, adjust the thickness and the height that spray the water column through shower nozzle 3, and then increase the style that shower nozzle 3 sprays the water column, increase the sight of fountain.

Referring to fig. 1 and 2, the top of the support tube 21 and the top end surface of the third adjustment tube 24 are perpendicular to their axes, and the top end surface of the first adjustment tube 22, the bottom end surface of the third adjustment tube 24 and the two end surfaces of the second adjustment tube 23 are not perpendicular to their axes. In the initial state, the support tube 21, the first regulation tube 22, the second regulation tube 23, and the third regulation tube 24 have their axes coincident with each other.

Referring to fig. 2, a first connection groove 211 begins on the top inner wall of the support pipe 21, a first connection pipe 221 is welded at the bottom of the first regulation pipe 22, the first connection pipe 221 is inserted inside the first connection groove 211, and a first sealing bearing 222 is installed between the outer wall of the first connection pipe 221 and the inner wall of the first connection groove 211. The first adjusting pipe 22 is rotatable on an end surface of the top of the support pipe 21.

The welding has first connecting ring 223 on the terminal surface of the top of first regulating pipe 22, the welding has second connecting ring 231 on the bottom terminal surface of second regulating pipe 23, the shape of first connecting ring 223 and second connecting ring 231 is the same, the second spread groove has been seted up on the inner wall of first connecting ring 223, the welding has the second connecting pipe on the inner wall of second connecting ring 231, the inside at the second spread groove is inserted to the second connecting pipe, install second seal bearing 232 between the outer wall of second connecting pipe and the inner wall of second spread groove. The second regulating pipe 23 is rotatable on an end surface of a top portion of the first regulating pipe 22, and the second seal bearing 232 prevents water inside the first regulating pipe 22 and the second regulating pipe 23 from leaking out of a joint therebetween.

The third connecting ring 233 is welded on the top end face of the second adjusting pipe 23, the fourth connecting ring 241 is welded on the bottom end face of the third adjusting pipe 24, a third connecting groove is formed in the inner wall of the third connecting pipe, the third connecting pipe is welded on the end portion of the fourth connecting ring 241, the third connecting ring 233 and the fourth connecting ring 241 are connected through the matching of the third connecting groove and the third connecting pipe, and a third sealing bearing 242 is installed between the third connecting pipe and the inner wall of the third connecting groove.

Referring to fig. 1 and 2, the number of the driving mechanisms 25 is three, and the driving mechanism 25 includes a driving motor 251 and a driving gear 252 spline-mounted on a power output shaft of the driving motor 251. The outer side surface of the bottom of the first adjusting pipe 22, the side surface of the second connecting ring 231 and the side surface of the fourth connecting ring 241 are all welded with driving gear rings 26, the three driving motors 251 are all waterproof motors, and the three driving motors 251 are fixedly installed on the outer side surface of the top of the supporting pipe 21, the outer side surface of the top of the first adjusting pipe 22 and the outer side surface of the top of the second adjusting pipe 23 respectively. The drive gear 252 meshes with the drive ring gear 26, and the three drive motors 251 are perpendicular to the drive ring gear 26 corresponding thereto.

When the fountain works, a worker can drive the driving gear 252 to rotate through the three driving motors 251, the driving gear 252 drives the driving gear ring 26 to rotate, and the three driving gear rings 26 drive the first adjusting pipe 22, the second adjusting pipe 23 and the third adjusting pipe 24 to rotate. The staff can change the angle of shower nozzle 3 at certain spatial range through the cooperation of first control tube 22, second control tube 23 and third control tube 24 to make shower nozzle 3 spout the water column of different angles at certain spatial range.

Referring to fig. 3, the spray head 3 includes a spray pipe 31 welded to the top of the third adjusting pipe 24, a spout adjusting mechanism 32 installed at the outlet of the spray pipe 31, and a driving assembly 323 for controlling the spout adjusting mechanism 32. The spout adjusting mechanism 32 includes an adjusting outer ring 321 at the outlet end surface of the articulated nozzle 31 and an adjusting inner ring 322 welded at the outlet end surface of the nozzle 31. The adjustment inner ring 322 and the adjustment outer ring 321 abut together. The driving assembly 323 is fixedly connected with the outer wall of the nozzle 31 and is hinged with the adjusting outer ring 321.

Referring to fig. 3 and 4, the adjusting outer ring 321 includes a plurality of movable plates 3211, the adjusting inner ring 322 includes a plurality of elastic plates 3221, the movable plates 3211 are all isosceles trapezoids in cross-sectional shape, a lower bottom edge of the movable plates 3211 is hinged to an outlet end surface of the nozzle pipe 31, one end of the elastic plate 3221 is welded to the outlet end surface of the nozzle pipe 31, the movable plates 3211 and the elastic plates 3221 are both arranged along a circumference, the elastic plates 3221 are disposed inside the movable plates 3211, and the elastic plates 3221 are tightly abutted to a side surface of the movable plates 3211 under the action of their own elastic force. Two ends of the lower bottom surface of the adjacent movable plate 3211 are abutted, and two ends of the lower bottom surface of the adjacent elastic plate 3221 are abutted.

The side surfaces of the adjacent movable plates 3211 are not in contact with each other, the side surfaces of the adjacent elastic plates 3221 are not in contact with each other, the movable plates 3211 and the elastic plates 3221 are arranged in a staggered manner, the movable plates 3211 seal gaps between the adjacent elastic plates 3221, and the elastic plates 3221 seal gaps between the adjacent movable plates 3211. The staff can adjust the spout diameter of shower nozzle 3 through rotating movable plate 3211, and when movable plate 3211 closed, movable plate 3211 drove elastic plate 3221 and closed together to make the diameter of shower nozzle 3 spout diminish, otherwise make the diameter of shower nozzle 3 spout grow. When the diameter of the nozzle 3 changes, the size and the height of the water column sprayed by the nozzle 3 change, thereby further improving the ornamental value of the fountain.

Referring to fig. 3 and 4, the driving assembly 323 includes a mounting ring 3232 welded on a side surface of the nozzle tube 31, a mounting block 3231 welded on an outer side surface of the movable plate 3211, and a cylinder 3233 mounted on the mounting ring 3232. A cylinder 3233 is arranged along the axis of the nozzle 31, the base of the cylinder 3233 being hinged to the mounting ring 3232 and the piston rod of the cylinder 3233 being hinged to the mounting block 3231. The plurality of air cylinders 3233 are provided, and the air cylinders 3233 correspond to the movable plate 3211 one to one. When the worker needs to adjust the diameter of the nozzle 3, the worker starts the cylinder 3233, and the piston rod of the cylinder 3233 drives the movable plate 3211 to rotate, so as to drive the movable plate 3211 and the elastic plate 3221 to move, thereby adjusting the diameter of the nozzle 3.

The implementation principle of a swing fountain in the embodiment of the application is as follows: the staff can drive first regulation pipe 22, second regulation pipe 23 and third spray tube 31 rotation respectively through three actuating mechanism 25, adjusts the angle of the injection water column of shower nozzle 3 through the cooperation of three, and the staff can drive fly leaf 3211 through cylinder 3233 and rotate the change that adjusts shower nozzle 3 spout diameter, and then control shower nozzle 3 and spray the size and the height of water column. The angle, thickness and height of the fountain water column are controlled by the swinging device 2 and the spray head 3, so that the style of the fountain water column is increased, and the ornamental value of the fountain is improved.

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

Claims (10)

1. A swing type fountain is characterized in that: comprises a mounting bracket (1), a swinging device (2) fixedly connected at the middle position of the mounting bracket (1) and a spray head (3) fixedly connected on the swinging sprayer device (2);

the swinging device (2) comprises a supporting pipe (21) fixedly connected to the bottom of the mounting bracket (1), a first adjusting pipe (22) rotatably connected to the end part of the supporting pipe (21), a second adjusting pipe (23) rotatably connected to the end part of the first adjusting pipe (22), a third adjusting pipe (24) rotatably connected to the end part of the second adjusting pipe (23) and a driving mechanism (25) for changing the angle of the spray head (3); the end face of the first adjusting pipe (22) close to the second adjusting pipe (23), the end face of the third adjusting pipe (24) close to the second adjusting pipe (23) and the two end faces of the second adjusting pipe (23) are not perpendicular to the axes of the first adjusting pipe, the second adjusting pipe and the third adjusting pipe; the driving mechanism (25) is provided with three, driving mechanism (25) is fixed connection respectively on stay tube (21), first regulation pipe (22), second regulation pipe (23), driving mechanism (25) are used for driving first regulation pipe (22), second regulation pipe (23) and third regulation pipe (24) to rotate.

2. The fountain of claim 1, wherein: the end face, close to the supporting pipe, of the first adjusting pipe (22) is fixedly connected with a first connecting pipe (221), a first connecting groove (211) is formed in the end face of the supporting pipe (21), the first connecting pipe (221) is arranged inside the first connecting groove (211), and a first sealing bearing (222) is arranged between the inner wall of the first connecting groove (211) and the outer wall of the first connecting pipe (221).

3. The fountain of claim 2, wherein: the end face, close to the second adjusting pipe (23), of the first adjusting pipe (22) is fixedly connected with a first connecting ring (223), the end face, close to the first adjusting pipe (22), of the second adjusting pipe (23) is fixedly connected with a second connecting ring (231), and a second sealing bearing (232) is arranged between the first connecting ring (223) and the second connecting ring (231).

4. The fountain of claim 3, wherein: the end portion of the second adjusting pipe (23) close to the third adjusting pipe (24) is fixedly connected with a third connecting ring (233), the end portion of the third adjusting pipe (24) close to the second adjusting pipe (23) is fixedly connected with a fourth connecting ring (241), the third connecting ring (233) is rotatably connected with the fourth connecting ring (241), and a third sealing bearing (242) is arranged between the third connecting ring (233) and the fourth connecting ring (241).

5. The fountain of claim 4, wherein: the end part of the supporting pipe (21) close to the first adjusting pipe (22), the side surface of the second connecting ring (231) and the side surface of the fourth connecting ring (241) are fixedly connected with driving gear rings (26), the driving mechanism (25) is perpendicular to the driving gear rings (26), and the driving mechanism (25) is meshed with the driving gear rings (26).

6. The fountain of claim 5, wherein: the driving mechanism (25) comprises a driving motor (251) fixedly connected to the outer side face of the first adjusting pipe (22), the outer side face of the second adjusting pipe (23) or the outer side face of the third adjusting pipe (24) and a driving gear (252) fixedly connected to a power output shaft of the driving motor (251); the drive gear (252) is externally meshed with the drive gear ring (26).

7. The fountain of claim 1, wherein: the axis collineation of first regulation pipe (22), second regulation pipe (23) and third regulation pipe (24), the terminal surface that first regulation pipe (22) are close to second regulation pipe (23), the terminal surface of second regulation pipe (23) and third regulation pipe (24) are close to second regulation pipe (23) all adjust pipe (23) symmetry about the second in the terminal surface, the axis coincidence of the axis of first regulation pipe (22) and stay tube (21), the axis of the terminal surface perpendicular to third regulation pipe (24) of second regulation pipe (23) is kept away from in third regulation pipe (24).

8. The fountain of claim 1, wherein: shower nozzle (3) are including fixed connection spout (31) and fixed connection spout adjustment mechanism (32) in spout (31) exit of keeping away from second regulation pipe (23) tip in third regulation pipe (24), spout adjustment mechanism (32) are including articulating regulation inner circle (322) and the fixed connection drive assembly (323) on spout (31) lateral surface at spout (31) exit regulation outer lane (321), fixed connection regulation inner circle (322) and the fixed connection in spout (31) exit, the lateral surface butt of adjusting inner circle (322) is on the medial surface of adjusting outer circle (321), it has certain elasticity to adjust inner circle (322), drive assembly (323) articulates on the lateral surface of adjusting outer circle (321).

9. The fountain of claim 8, wherein: the adjusting outer ring (321) comprises a plurality of movable plates (3211) hinged to the outlet end face of the spray pipe (31), one end of each movable plate (3211) is hinged to the end face of the spray pipe (31), the adjusting inner ring (322) comprises an elastic plate (3221) fixedly connected to the outlet end face of the spray pipe (31), the movable plates (3211) and the elastic plates (3221) are arranged along the circumference, gaps are formed between the adjacent movable plates (3211) and between the adjacent elastic plates (3221), the elastic plates (3221) and the movable plates (3211) are arranged in a staggered mode, and the elastic plates (3221) abut against the gaps of the movable plates (3211).

10. The fountain of claim 9, wherein: the driving assembly (323) comprises a mounting block (3231) fixedly connected to the outer side face of the movable plate (3211), a mounting ring (3232) fixedly connected to the third adjusting pipe (24), and a cylinder (3233) with one end hinged to the mounting block (3231), the other end of the cylinder (3233) is hinged to the mounting ring (3232), and the cylinders (3233) correspond to the movable plate (3211) one to one.

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