CN217794272U - Push type interactive paddling view device - Google Patents

Push type interactive paddling view device Download PDF

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Publication number
CN217794272U
CN217794272U CN202222065940.1U CN202222065940U CN217794272U CN 217794272 U CN217794272 U CN 217794272U CN 202222065940 U CN202222065940 U CN 202222065940U CN 217794272 U CN217794272 U CN 217794272U
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China
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water
water outlet
sleeve
trampoline
pressing
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CN202222065940.1U
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Chinese (zh)
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刘曦
陈宇
李辰琦
王超
张龙巍
郝阿娜
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Shenyang Jianzhu University
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Shenyang Jianzhu University
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Abstract

The utility model provides a push type interactive amusement and water view device, solves that current hydrophilic facility exists and moves according to established procedure, lacks interactive, complex operation, needs to use a large amount of power equipment, and the security is poor, and the consumption of the energy is big, the problem that the maintenance cost is high. The water storage device comprises a trampoline pressing mechanism, a water absorption and storage mechanism is arranged below the trampoline pressing mechanism, a water delivery vertical pipe is arranged at the lower part of the water absorption and storage mechanism, and the lower end of the water delivery vertical pipe is connected with a water storage pool; a random water outlet mechanism is arranged between the water absorption and storage mechanism and the upper end of the water delivery vertical pipe, water outlet pipes are respectively arranged at the water outlet of the random water outlet mechanism, and a water outlet nozzle is arranged at the end part of each water outlet pipe. The novel water paddling device is reasonable in design, compact in structure, capable of forming the effect of random water outlet due to the fact that the device is integrally formed by a mechanical structure, capable of improving the interaction of paddling, capable of avoiding the use of power equipment, effectively reducing energy consumption, low in maintenance cost, good in use safety and strong in practicability.

Description

Push type interactive paddling view device
Technical Field
The utility model belongs to the technical field of the view facility of playing with water, concretely relates to comprises mechanical structure, can form the effect of random play water, can promote the interactive of playing with water, avoids power equipment's use, effectively reduces energy consumption, and the maintenance cost is low, the interactive view device of playing with water of push type that the practicality is strong.
Background
In outdoor landscape activities, hydrophilic activities are a more important category. Most of the existing hydrophilic facilities operate according to established programs, and the existing hydrophilic facilities lack interactivity and are not strong in interestingness. In addition, some hydrophilic facilities which take the interest into consideration are complex to operate, not intuitive enough and poor in practicability; in addition, a large amount of power equipment is required, which not only consumes a large amount of energy and has high maintenance cost, but also has poor safety. Because of the lack of a low-carbon maintenance-free hydrophilic facility with interactivity and interestingness, there is a need to improve the hydrophilic landscape device in the prior art.
SUMMERY OF THE UTILITY MODEL
The utility model discloses just to above-mentioned problem, provide one kind and constitute by mechanical structure, can form the effect that the randomness goes out water, can promote the interactive of paddling, avoid power equipment's use, effectively reduce energy resource consumption, the maintenance cost is low, the interactive paddling view device of push type that the practicality is strong.
The utility model adopts the technical proposal that: the pressing type interactive water amusement landscape device comprises a trampoline pressing mechanism, wherein a water absorbing and storing mechanism is arranged below the trampoline pressing mechanism, a water delivery vertical pipe is arranged at the lower part of the water absorbing and storing mechanism, and the lower end of the water delivery vertical pipe is connected with a water storage pool; and a random water outlet mechanism is arranged between the water absorbing and storing mechanism and the upper end of the water delivery vertical pipe, water outlet pipes are respectively arranged at the water outlet of the random water outlet mechanism, and a water outlet nozzle is arranged at the end part of each water outlet pipe.
The trampoline pressing mechanism comprises a trampoline frame body, a trampoline surface is arranged inside the trampoline frame body, and the trampoline surface is elastically connected with the trampoline frame body through a plurality of trampoline springs; a buffer pad is arranged below the trampoline surface, a pedal clamping groove is formed in the lower side of the buffer pad, and a pressing pedal is arranged in the pedal clamping groove. The trampoline can be bounced on the elastic trampoline bed by a user to press the pressing pedal on the lower side of the cushion pad, so that the water absorbing and storing mechanism below the trampoline pressing mechanism can be triggered.
The water absorbing and storing mechanism comprises a water storing bin, a water storing buffering cavity is arranged in the water storing bin, a fixed piston mounting hole is formed in the lower side of the water storing buffering cavity, a bottom fixed piston is inserted in the fixed piston mounting hole, the upper end of the bottom fixed piston is positioned in the water storing buffering cavity, and a reset spring is further arranged between the upper end of the bottom fixed piston and the top of the water storing buffering cavity; the lower end of the bottom fixing piston is connected with the upper end of the water delivery vertical pipe, and a pipe cavity of the water delivery vertical pipe is communicated with a water storage buffer cavity of the water storage bin. Carry out decurrent pressing to the retaining storehouse with trampoline pressing mechanism through the top to, jump the in-process when the user, when removing trampoline pressing mechanism's pressing force temporarily, utilize reset spring to make the retaining storehouse upwards reset, thereby through the fixed piston in fixed position with the reservoir water, in the retaining cushion chamber of sucking the retaining storehouse via the water delivery riser, and then the follow-up water that goes out the mechanism and will store water in the cushion chamber of utilizing at random of being convenient for spouts at random.
A communicating bin is arranged at the upper part of a water storage buffer cavity of the water storage bin, an air exchange cavity is arranged in the communicating bin, and a plurality of pressing exhaust holes are formed in the side wall of the air exchange cavity; the ventilation cavity of the communication bin is communicated with the water storage buffer cavity of the water storage bin through the top check valve mounting hole, and the top pressing check valve is further arranged in the top check valve mounting hole. In order to press along with trampoline pressing mechanism at the retaining storehouse, when moving down, through the chamber of taking a breath in the UNICOM storehouse that is linked together with the retaining storehouse with press the exhaust hole, with the air escape of the retaining buffering intracavity of compressed, do benefit to the pressing force and remove the back, inhale the retaining buffering intracavity of retaining storehouse with the help of atmospheric pressure to the water in the tank.
The bottom fixed piston comprises a piston body, a conical water storage and diversion cavity is arranged in the piston body, the lower part of the water storage and diversion cavity is communicated with a pipe cavity of the water delivery vertical pipe through a piston overflowing hole, and a spring installation groove is formed in the upper part of the water storage and diversion cavity; and the upper end of the piston main body is also provided with a limiting convex edge used for limiting the rising position of the water storage bin. The water pumped up from the water storage tank by the water delivery vertical pipe is input into a water storage buffer cavity of the water storage bin through a conical water storage diversion cavity connected with the piston overflowing hole; and when the water storage chamber moves downwards again along with the pressing of the trampoline pressing mechanism, water in the water storage buffer chamber of the water storage chamber flows to the random water outlet mechanism through the water storage diversion chamber with the structure that the upper part is wide and the lower part is narrow, and water is randomly sprayed.
The random water outlet mechanism comprises a change gear mechanism arranged at the lower part of the water absorbing and storing mechanism, a random water outlet valve is arranged at the lower side of the change gear mechanism and is arranged between the root part of the water outlet pipe and a water storage and liquid outlet hole on the side wall of the upper end of the water delivery vertical pipe; the lower part of the water storage and liquid outlet hole and the inside of the pipe cavity of the water delivery vertical pipe are provided with the overflowing pore plate which is transversely arranged, and the overflowing pore plate is provided with a bottom pressing check valve. The lifting motion of the water absorbing and storing mechanism above the water absorbing and storing mechanism is converted into intermittent rotation along the vertical axis by utilizing the change gear mechanism, and then the water in the water storing buffer cavity of the water absorbing and storing mechanism is randomly sprayed out from one or more water outlet pipes.
The turning gear mechanism comprises a piston body sleeve with a hollow structure, a helical gear surface is arranged on the outer side wall of the piston body sleeve, a turning ratchet wheel is coaxially arranged on the lower side inside the piston body sleeve, and ratchet teeth on the turning ratchet wheel are respectively matched and clamped with a turning pawl correspondingly arranged on the inner side wall of the piston body sleeve; the turning pawl is rotatably connected with a pawl fixing plug bush fixedly arranged on the inner side wall of the piston body sleeve through a pawl hinge rotating shaft; the lower part of the water absorbing and storing mechanism is also provided with a pressing guide sleeve which is sleeved outside the piston body sleeve; and a plurality of gear driving inserting columns which are arranged along the circumferential direction of the inner wall and are used for being matched with tooth grooves of the wheel surface of the helical gear are also arranged on the inner side wall of the pressing guide sleeve. The pressing guide sleeve sleeved outside the piston body sleeve moves up and down along with the water absorbing and storing mechanism to drive the inserted column to drive the helical gear surface on the outer wall of the piston body sleeve to rotate along the axis by utilizing the gear on the inner wall of the pressing guide sleeve, so that the turning ratchet arranged coaxially is driven to rotate by the turning pawl on the inner side wall of the piston body sleeve, and the random water outlet valve arranged on the lower side of the turning gear mechanism rotates and discharges water randomly.
The random water outlet valve comprises a water outlet valve sleeve, the upper end of the water outlet valve sleeve is connected with the lower side of the turning ratchet wheel, a vertical pipe sleeving through hole is formed in the middle of the water outlet valve sleeve, and the vertical pipe sleeving through hole is communicated with the through hole in the middle of the turning ratchet wheel; moreover, the side wall of the water outlet valve sleeve is provided with a plurality of water outlet holes which are irregularly arranged along the circumferential direction; correspondingly, the outer side of the water outlet valve sleeve is also sleeved with a water pipe connecting sleeve, and the root of the water outlet pipe is respectively connected with a water outlet hole of the water pipe sleeve arranged on the water pipe connecting sleeve. The water flow in the water storage buffer cavity conveyed by the through hole in the middle of the turning ratchet wheel and the extrusion is conveyed to the corresponding water outlet pipe from the water outlet hole of the water pipe sleeve on the side wall of the water pipe connecting sleeve by utilizing the water outlet holes irregularly arranged on the side wall of the water outlet valve sleeve, and then is sprayed out by the water outlet nozzle at the end part of the water outlet pipe.
The water outlet holes which are irregularly arranged on the side wall of the water outlet valve sleeve comprise random water outlet circular holes and random water outlet long holes. The random water outlet circular holes and the random water outlet long holes are formed in the side wall of the water outlet valve sleeve, so that the water outlet randomness of the water outlet valve sleeve in the rotation process is further improved.
A water inlet valve for automatic water replenishing is further arranged in the water storage pool, a water inlet is formed in the side part of the water inlet valve, and the water inlet is connected with a water conveying pipeline; the water outlet at the upper part of the water inlet valve is provided with a needle valve, the needle valve is provided with a buoy for opening the water outlet, and the buoy is positioned in the water body in the water storage pool. When the water surface in the water storage pool drops to a water supplementing height, the upper part of the water inlet valve and the water outlet connected with the water inlet are opened by the floating barrel along with the drop of the water surface in the pool, so that the water is supplemented into the water storage pool, and the continuous use of the device is facilitated.
The utility model has the advantages that: because the utility model adopts the trampoline pressing mechanism, the water absorbing and storing mechanism is arranged below the trampoline pressing mechanism, the lower part of the water absorbing and storing mechanism is provided with the water delivery vertical pipe, and the lower end of the water delivery vertical pipe is connected with the water storage tank; the random water outlet mechanism is arranged between the water absorbing and storing mechanism and the upper end of the water conveying vertical pipe, the water outlet of the random water outlet mechanism is respectively provided with a water outlet pipe, and the end part of the water outlet pipe is provided with a structural form of a water outlet spray head, so the random water outlet mechanism is reasonable in design and compact in structure, the whole device is composed of a mechanical structure, the random water outlet effect can be formed, the interaction of paddling can be improved, the use of power equipment is avoided, the energy consumption is effectively reduced, the maintenance cost is low, the use safety is good, and the practicability is strong.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a sectional view of an internal structure of fig. 1.
Fig. 3 is an exploded view of fig. 1.
Fig. 4 is a schematic view of a configuration of the trampoline bed shown in fig. 3.
Fig. 5 is a schematic view showing a structure of the cushion pad and the pressing step in fig. 3.
Fig. 6 is a schematic view of the reservoir and the communicating chamber of fig. 3.
Fig. 7 is a sectional view of an internal structure of fig. 6.
Fig. 8 is a schematic view of a bottom stationary piston of fig. 3.
Fig. 9 is a sectional view of an internal structure of fig. 8.
Fig. 10 is a cross-sectional view of one connection structure of the communicating chamber, the water storage chamber, the bottom fixed piston, the direction-changing gear mechanism and the random outlet valve in fig. 2.
Fig. 11 is a schematic view of one construction of the direction changing gear mechanism in fig. 3.
FIG. 12 is a schematic illustration of one construction of the piston body sleeve of FIG. 11.
Fig. 13 is a schematic diagram of a structure of the random outlet valve of fig. 11.
Fig. 14 is a schematic view showing a connection structure of the water pipe connection sleeve and the water outlet pipe of fig. 3.
Fig. 15 isbase:Sub>A partial sectional view of the structure of fig. 10 taken along linebase:Sub>A-base:Sub>A.
The sequence numbers in the figures illustrate: 1 trampoline pressing mechanism, 2 water absorption and storage mechanism, 3 random water outlet mechanism, 4 water delivery vertical pipe, 5 water storage tank, 6 water outlet pipe, 7 trampoline surface, 8 trampoline spring, 9 buffer cushion, 10 pressing pedal, 11 communicating bin, 12 top pressing check valve, 13 water storage bin, 14 reset spring, 15 bottom fixed piston, 16 direction-changing gear mechanism, 17 random water outlet valve, 18 bottom pressing check valve, 19 water inlet valve, 20 water inlet, 21 needle valve, 22 buoy, 23 water outlet nozzle, 24 water pipe connecting sleeve, 25 trampoline frame, 26 pedal clamping groove, 27 pressing exhaust hole, 28 fixed piston mounting hole, 29 pressing guide sleeve, 30 gear driving inserted column, 31 water storage buffer cavity, 32 air exchanging cavity, 33 top check valve mounting hole, 34 piston body, 35 limit convex edge, 36 spring mounting groove, 37 flow guide cavity, helical gear 38 flow hole plate, 39 piston flow through hole, 40 water storage outlet hole, 41 sleeve, 42 direction-changing wheel surface, 43 pawl, 44 water outlet hole, ratchet wheel, 45 pawl fixed inserted sleeve, 46 pawl, rotating shaft hinged water storage and water outlet pipe mounting hole, 48 water outlet pipe sleeve, water outlet hole, 50 random water outlet hole, 50 piston sleeve, and random water outlet hole.
Detailed Description
The specific structure of the present invention will be described in detail with reference to fig. 1 to 15. The push type interactive recreational landscape device comprises a trampoline pressing mechanism 1, wherein the trampoline pressing mechanism 1 is composed of an annular trampoline frame body 25, a trampoline bed surface 7 is arranged inside the trampoline frame body 25, and the periphery of the trampoline bed surface 7 is elastically connected with the trampoline frame body 25 through a plurality of trampoline springs 8. Moreover, a flexible buffer cushion 9 is arranged below the trampoline surface 7, and a pedal clamping groove 26 is arranged at the lower side of the buffer cushion 9; a pressing pedal 10 for pressing the lower water absorbing and storing mechanism 2 is provided in the pedal engagement groove 26. Further, the user bounces on the elastic trampoline surface 7 to press the pressing pedal 10 below the cushion pad 9, so as to repeatedly touch the water absorbing and storing mechanism 2 below the trampoline pressing mechanism 1.
A water absorption and storage mechanism 2 is arranged below a pressing pedal 10 of the trampoline pressing mechanism 1; the lower part of the water absorbing and storing mechanism 2 is provided with a vertical water delivery vertical pipe 4, and the lower end of the water delivery vertical pipe 4 is connected with a water storage tank 5. The retaining mechanism 2 that absorbs water includes retaining storehouse 13, and the inside in retaining storehouse 13 is provided with retaining cushion chamber 31, and retaining cushion chamber 31's downside is provided with fixed piston mounting hole 28, and the interpolation is provided with the fixed piston 15 in bottom of rigidity in the fixed piston mounting hole 28. Meanwhile, the upper end of the bottom fixed piston 15 is located inside the water storage buffer cavity 31, and a return spring 14 is further arranged between the upper end of the bottom fixed piston 15 and the top of the water storage buffer cavity 31. The lower end of the bottom fixed piston 15 is connected with the upper end of the water delivery vertical pipe 4, and the pipe cavity of the water delivery vertical pipe 4 is communicated with the water storage buffer cavity 31 of the water storage chamber 13, so that the water in the water storage tank 5 can flow into the water storage chamber 13. Therefore, the water storage chamber 13 is pressed downwards (the user falls downwards) through the upper trampoline pressing mechanism 1, and when the user jumps and the pressing force on the trampoline pressing mechanism 1 is removed temporarily (the user bounces upwards), the water storage chamber 13 is reset upwards by the reset spring 14, and then the water in the water storage tank 5 is pumped into the water storage buffer chamber 31 of the water storage chamber 13 through the fixed-position bottom fixed piston 15, and the water in the water storage buffer chamber 31 is sprayed out randomly by the random water outlet mechanism 3.
The upper part of the water storage buffer cavity 31 of the water storage chamber 13 of the water absorption and storage mechanism 2 is also provided with a communication chamber 11, the communication chamber 11 is internally provided with a ventilation chamber 32, and the side wall of the ventilation chamber 32 is provided with a plurality of pressing exhaust holes 27. The ventilation cavity 32 of the communication bin 11 is communicated with the water storage buffer cavity 31 of the water storage bin 13 through a top check valve mounting hole 33, and a top pressing check valve 12 is arranged in the top check valve mounting hole 33; the top press check valve 12 may be configured as a check pad that provides one-way flow of gas or liquid, depending on the particular application. Furthermore, when the water storage chamber 13 moves downwards along with the pressing of the trampoline pressing mechanism 1, the compressed air in the water storage buffer chamber 31 is discharged through the air exchange chamber 32 and the pressing exhaust hole 27 of the communication chamber 11 communicated with the water storage chamber 13, so that the water in the water storage tank 5 is sucked into the water storage buffer chamber 31 of the water storage chamber 13 by means of atmospheric pressure after the pressing force is removed.
The bottom fixing piston 15 arranged at the lower side of the water storage buffer cavity 31 in the water storage bin 13 is composed of a piston main body 34, a conical water storage diversion cavity 37 is arranged in the piston main body 34, and the water storage diversion cavity 37 adopts a structural form that the upper end is large and the lower end is small. The lower part of the water storage diversion cavity 37 is communicated with the pipe cavity of the water delivery vertical pipe 4 through a piston overflowing hole 39, and the upper part of the water storage diversion cavity 37 is provided with a spring installation groove 36 for installing the return spring 14; and the upper end of the piston main body 34 is also provided with a limit convex edge 35 used for limiting the rising position of the water storage bin 13. Therefore, the water pumped up from the water storage pool 5 by the water delivery vertical pipe 4 is input into the water storage buffer cavity 31 of the water storage bin 13 through the conical water storage diversion cavity 37 connected with the piston overflowing hole 39; when the water storage chamber 13 moves downward again with the pressing of the trampoline pressing mechanism 1, the water in the water storage buffer chamber 31 of the water storage chamber 13 flows to the random water outlet mechanism 3 through the water storage diversion chamber 37 with a wide upper part and a narrow lower part, and the random water spraying is performed.
A water inlet valve 19 for automatic water replenishing is further arranged in the water storage tank 5, a water inlet 20 is arranged on the side portion of the water inlet valve 19, and the water inlet 20 is connected with a water conveying pipeline. A needle valve 21 is arranged at a water outlet at the upper part of the water inlet valve 19, a float 22 for opening the water outlet is arranged on the needle valve 21, and the float 22 is positioned in the water body in the water storage tank 5. When the water level in the water storage pool 5 drops to a water replenishing height, the upper part of the water inlet valve 19 and the water outlet connected with the water inlet 20 are opened through the descending of the buoy 22 along with the water level in the pool, so that the water is replenished into the water storage pool 5, and the continuous use of the device is facilitated.
In addition, a random water outlet mechanism 3 is arranged between the lower side of the water storage bin 13 of the water absorbing and storing mechanism 2 and the upper end of the water delivery vertical pipe 4. The random water outlet mechanism 3 comprises a direction-changing gear mechanism 16 which is arranged at the lower part of the water storage bin 13 and sleeved outside a piston main body 34 of the bottom fixed piston 15, the direction-changing gear mechanism 16 is composed of a piston body sleeve 41 with a hollow structure, and a circle of helical gear surface 42 is arranged on the outer side wall of the piston body sleeve 41. The lower side inside the piston body sleeve 41 is coaxially provided with a direction-changing ratchet 44, and ratchet teeth on the direction-changing ratchet 44 are respectively matched and clamped with a direction-changing pawl 43 correspondingly arranged on the inner side wall of the piston body sleeve 41. Each direction changing pawl 43 is rotatably connected with a pawl fixing sleeve 45 fixedly arranged on the inner side wall of the piston body sleeve 41 through a pawl hinge rotating shaft 46.
The lower part of the water storage bin 13 of the water absorption and storage mechanism 2 and the position of the fixed piston mounting hole 28 are also provided with a pressing guide sleeve 29, and the pressing guide sleeve 29 is movably sleeved outside a piston body sleeve 41 of the change gear mechanism 16; meanwhile, a plurality of gear driving insert posts 30 which are arranged along the circumferential direction of the inner wall and are used for being matched with tooth grooves between two teeth of the helical gear face 42 are also arranged on the inner side wall of the pressing guide sleeve 29. Therefore, the pressing guide sleeve 29 sleeved outside the piston body sleeve 41 moves up and down along with the water absorbing and storing mechanism 2, the gear on the inner wall of the pressing guide sleeve 29 is used for driving the inserted column 30 and driving the helical gear surface 42 on the outer wall of the piston body sleeve 41 to rotate along the axial line, and then the direction changing pawl 43 on the inner side wall of the piston body sleeve 41 is used for driving the direction changing ratchet 44 which is coaxially arranged to rotate, so that the random water outlet valve 17 arranged on the lower side of the direction changing gear mechanism 16 rotates and randomly discharges water. It can be understood that the number of the arrangement and the pitch of the gear drive studs 30 can produce random angular rotations of the piston body sleeve 41 of the direction-changing gear mechanism 16.
The random water outlet valve 17 is arranged on the lower side of the direction changing ratchet wheel 44 of the direction changing gear mechanism 16, the random water outlet valve 17 is composed of a water outlet valve sleeve 47, the upper end of the water outlet valve sleeve 47 is connected with the lower side of the direction changing ratchet wheel 44, a vertical pipe sleeving through hole 48 is formed in the middle of the water outlet valve sleeve 47, and the vertical pipe sleeving through hole 48 is communicated with a through hole in the middle of the direction changing ratchet wheel 44. Meanwhile, the side wall of the water outlet valve sleeve 47 is also provided with a plurality of water outlets which are irregularly arranged along the circumferential direction. The outlet holes formed in the side wall of the outlet valve sleeve 47 include random outlet circular holes 49 and random outlet long holes 50, so that the randomness of the outlet water in the rotation process of the outlet valve sleeve 47 is further increased through the random outlet circular holes 49 and the random outlet long holes 50 formed in the side wall of the outlet valve sleeve 47.
Correspondingly, the outer side of the water outlet valve sleeve 47 of the random water outlet valve 17 is also sleeved with a water pipe connecting sleeve 24, the water pipe connecting sleeve 24 is provided with a plurality of water outlet pipes 6 which are arranged along the circumferential direction, and the upper end parts of the water outlet pipes 6 are respectively provided with a water outlet spray head 23; the root of the water outlet pipe 6 is respectively connected with the water outlet hole 51 of the water pipe sleeve on the water pipe connecting sleeve 24. Therefore, the water flow in the water storage buffer cavity 31 conveyed by the through hole in the middle of the direction-changing ratchet 44 and the extrusion is transmitted to the corresponding water outlet pipe 6 from the water pipe sleeve water outlet hole 51 on the side wall of the water pipe connecting sleeve 24 by utilizing the water outlet holes irregularly arranged on the side wall of the water outlet valve sleeve 47.
Moreover, the outlet valve sleeve 47 of the random outlet valve 17 is arranged between the water pipe connecting sleeve 24 and the upper end (the position of the outer side wall on which the water and liquid storage hole 40 is arranged) of the water delivery vertical pipe 4 (as shown in fig. 9 and 14); the water and liquid storage holes 40 at the upper end of the water delivery vertical pipe 4, the random water outlet round holes 49 and the random water outlet long holes 50 on the rotatable water outlet valve sleeve 47 and the water outlet holes on the water pipe connecting sleeve 24 form a random flow channel for water jet. An overflow pore plate 38 which is transversely arranged is arranged below the water storage and liquid outlet hole 40 on the side wall of the upper end of the water delivery vertical pipe 4 and inside the pipe cavity of the water delivery vertical pipe 4, and a bottom pressing check valve 18 is arranged on the overflow pore plate 38; the bottom-pressing check valve 18 may have a check pad structure for unidirectional flow of gas or liquid, as required for use. Furthermore, the elevating movement of the upper water absorbing and storing mechanism 2 is converted into intermittent rotation along the vertical axis by the direction-changing gear mechanism 16, so that the water in the water storing buffer chamber 31 of the water absorbing and storing mechanism 2 is randomly ejected from the water outlet nozzle 23 at the end of one or more water outlet pipes 6.
When the pressing type interactive amusement water landscape device is constructed and installed, the water absorbing and storing mechanism 2, the random water outlet mechanism 3, the water outlet pipe 6, the water delivery vertical pipe 4 and the water storage tank 5 are all positioned in an installation pit reserved in an amusement field (for example, below the ground), meanwhile, the trampoline pressing mechanism 1 is positioned above the ground of the field to facilitate the jumping of a user on the trampoline pressing mechanism, and the water outlet spray nozzles 23 at the upper end parts of the water outlet pipes 6 can spray water into the field (for example, the water outlet nozzles are exposed out of holes in the ground); the inlet 20 at the side of the inlet valve 19 in the reservoir 5 may be connected to a municipal water line.
When the interactive play of water is needed, a user jumps on the elastic trampoline bed surface 7 of the trampoline pressing mechanism 1, and then presses the pressing pedal 10 on the lower side of the cushion pad 9 (the user falls downwards), so that the downward pressing touch of the communicating bin 11 and the water storage bin 13 of the lower water absorption and storage mechanism 2 is realized. In the process that the water storage chamber 13 moves downwards (the position of the bottom fixed piston 15 is fixed) along with the pressing of the trampoline pressing mechanism 1, air in the compressed water storage buffer chamber 31 is discharged (the top pressing check valve 12 is opened) through the air exchange chamber 32 and the pressing exhaust hole 27 of the communicating chamber 11 communicated with the water storage chamber 13. Then, when the pressing force to the trampoline bed 7 is temporarily removed (the user bounces upward) during the jumping process of the user, the water storage bin 13 is moved upward and reset (at this time, the top pressing check valve 12 is closed) by the reset elastic force of the reset spring 14; and because the position of the bottom fixed piston 15 is fixed, water in the water storage tank 5 is sucked upwards into the water storage buffer cavity 31 of the water storage bin 13 by the atmospheric pressure through the water delivery vertical pipe 4 and the water storage diversion cavity 37 of the bottom fixed piston 15 (the bottom pressing check valve 18 on the overflowing pore plate 38 is opened).
Then, in the process of continuous jumping of the user, when the water storage chamber 13 moves downwards again along with the pressing of the trampoline pressing mechanism 1, the water in the water storage buffer chamber 31 of the water storage chamber 13 is pressed downwards into the random water outlet mechanism 3 through the water storage diversion chamber 37 and the water storage liquid outlet hole 40 of the bottom fixed piston 15 (at this time, the bottom pressing check valve 18 closes and seals the overflowing hole plate 38). Meanwhile, the pressing guide sleeve 29 sleeved outside the piston body sleeve 41 of the random water outlet mechanism 3 moves downwards along with the water absorbing and storing mechanism 2 above the pressing guide sleeve 29, so that the inserted column 30 is driven by the gear on the inner wall of the pressing guide sleeve 29, the helical gear surface 42 on the outer wall of the piston body sleeve 41 is driven to rotate at a random angle along the axis, and the direction changing ratchet 44 coaxially arranged is driven to rotate correspondingly by the direction changing pawl 43 on the inner side wall of the piston body sleeve 41, so that the random water outlet valve 17 arranged on the lower side of the direction changing ratchet 44 rotates and discharges water randomly. Then, the water outlet holes irregularly arranged on the side wall of the water outlet valve sleeve 47 of the random water outlet valve 17 are utilized to convey the water flow extruded and conveyed from the water storage buffer cavity 31 into the corresponding water outlet pipe 6 from a certain (or a plurality of) water pipe sleeve water outlet holes 51 on the side wall of the water pipe connecting sleeve 24 at random, and the water flow is sprayed out to the paddling place by the water outlet nozzle 23.
Along with the jumping of a user on the trampoline pressing mechanism 1, the device repeats the process of transmitting downward pressure to the water absorbing and storing mechanism 2, pressing down the water absorbing and storing mechanism 2, triggering the random water outlet mechanism 3 to randomly rotate to discharge water, bouncing upwards by the user, resetting the water absorbing and storing mechanism 2 to absorb water, and falling down again by the user to press the water absorbing and storing mechanism 2, so that the random water spraying interaction of the water outlet nozzle 23 of a certain water outlet pipe 6 in the field is realized.

Claims (10)

1. The utility model provides a push type interactive paddling view device which characterized in that: the trampoline water storage device comprises a trampoline pressing mechanism (1), wherein a water absorption and storage mechanism (2) is arranged below the trampoline pressing mechanism (1), a water delivery vertical pipe (4) is arranged at the lower part of the water absorption and storage mechanism (2), and the lower end of the water delivery vertical pipe (4) is connected with a water storage pool (5); and a random water outlet mechanism (3) is further arranged between the water absorbing and storing mechanism (2) and the upper end of the water delivery vertical pipe (4), water outlet pipes (6) are respectively arranged at the water outlet of the random water outlet mechanism (3), and water outlet nozzles (23) are arranged at the end parts of the water outlet pipes (6).
2. The push type interactive water amusement device of claim 1, wherein: the trampoline pressing mechanism (1) comprises a trampoline frame body (25), a trampoline surface (7) is arranged inside the trampoline frame body (25), and the trampoline surface (7) is elastically connected with the trampoline frame body (25) through a plurality of trampoline springs (8); a buffer pad (9) is arranged below the trampoline surface (7), a pedal clamping groove (26) is arranged on the lower side of the buffer pad (9), and a pressing pedal (10) is arranged in the pedal clamping groove (26).
3. The press type interactive water play landscape apparatus of claim 1, wherein: the water absorbing and storing mechanism (2) comprises a water storing chamber (13), a water storing buffer chamber (31) is arranged in the water storing chamber (13), a fixed piston mounting hole (28) is arranged at the lower side of the water storing buffer chamber (31), a bottom fixed piston (15) is inserted in the fixed piston mounting hole (28), the upper end of the bottom fixed piston (15) is positioned in the water storing buffer chamber (31), and a reset spring (14) is also arranged between the upper end of the bottom fixed piston (15) and the top of the water storing buffer chamber (31); the lower end of the bottom fixed piston (15) is connected with the upper end of the water delivery vertical pipe (4), and the pipe cavity of the water delivery vertical pipe (4) is communicated with the water storage buffer cavity (31) of the water storage bin (13).
4. The push type interactive water amusement device of claim 3, wherein: a communicating bin (11) is arranged at the upper part of a water storage buffer cavity (31) of the water storage bin (13), a ventilation cavity (32) is arranged in the communicating bin (11), and a plurality of pressing exhaust holes (27) are formed in the side wall of the ventilation cavity (32); the ventilation cavity (32) of the communication bin (11) is communicated with the water storage buffer cavity (31) of the water storage bin (13) through a top check valve mounting hole (33), and a top pressing check valve (12) is further arranged in the top check valve mounting hole (33).
5. The push type interactive water play landscape apparatus of claim 3, wherein: the bottom fixed piston (15) comprises a piston main body (34), a conical water storage and diversion cavity (37) is arranged in the piston main body (34), the lower part of the water storage and diversion cavity (37) is communicated with a pipe cavity of the water delivery vertical pipe (4) through a piston overflowing hole (39), and a spring installation groove (36) is arranged at the upper part of the water storage and diversion cavity (37); and the upper end of the piston main body (34) is also provided with a limit convex edge (35) for limiting the rising position of the water storage bin (13).
6. The press type interactive water play landscape apparatus of claim 1, wherein: the random water outlet mechanism (3) comprises a change gear mechanism (16) arranged at the lower part of the water absorbing and storing mechanism (2), a random water outlet valve (17) is arranged at the lower side of the change gear mechanism (16), and the random water outlet valve (17) is arranged between the root part of the water outlet pipe (6) and a water storing and liquid discharging hole (40) on the side wall of the upper end of the water delivery vertical pipe (4); the water storage and liquid outlet hole (40) and the inside of the pipe cavity of the water delivery vertical pipe (4) are transversely provided with overflowing pore plates (38), and bottom pressing check valves (18) are arranged on the overflowing pore plates (38).
7. The push type interactive water amusement device of claim 6, wherein: the change gear mechanism (16) comprises a piston body sleeve (41) with a hollow structure, a helical gear surface (42) is arranged on the outer side wall of the piston body sleeve (41), a change ratchet (44) is coaxially arranged on the lower side inside the piston body sleeve (41), and ratchet teeth on the change ratchet (44) are respectively matched and clamped with a change ratchet (43) correspondingly arranged on the inner side wall of the piston body sleeve (41); the direction changing pawl (43) is rotationally connected with a pawl fixing plug bush (45) fixedly arranged on the inner side wall of the piston body sleeve (41) through a pawl hinge rotating shaft (46); the lower part of the water absorbing and storing mechanism (2) is also provided with a pressing guide sleeve (29), and the pressing guide sleeve (29) is sleeved outside the piston body sleeve (41); and a plurality of gear driving inserting columns (30) which are arranged along the circumferential direction of the inner wall and are used for being matched with tooth grooves of the helical gear surface (42) are also arranged on the inner side wall of the pressing guide sleeve (29).
8. The push type interactive water play landscape apparatus of claim 7, wherein: the random water outlet valve (17) comprises a water outlet valve sleeve (47), the upper end of the water outlet valve sleeve (47) is connected with the lower side of the turning ratchet wheel (44), a vertical pipe sleeving through hole (48) is formed in the middle of the water outlet valve sleeve (47), and the vertical pipe sleeving through hole (48) is communicated with the through hole in the middle of the turning ratchet wheel (44); moreover, the side wall of the water outlet valve sleeve (47) is provided with a plurality of water outlet holes which are irregularly arranged along the circumferential direction; correspondingly, the outer side of the water outlet valve sleeve (47) is also sleeved with a water pipe connecting sleeve (24), and the root of the water outlet pipe (6) is respectively connected with a water pipe sleeve water outlet hole (51) arranged on the water pipe connecting sleeve (24).
9. The push type interactive paddling landscape device of claim 8, wherein: the water outlet holes which are irregularly arranged on the side wall of the water outlet valve sleeve (47) comprise random water outlet circular holes (49) and random water outlet long holes (50).
10. The push type interactive water amusement device of claim 1, wherein: a water inlet valve (19) for automatically replenishing water is further arranged in the water storage tank (5), a water inlet (20) is arranged on the side of the water inlet valve (19), and the water inlet (20) is connected with a water conveying pipeline; a needle valve (21) is arranged at a water outlet at the upper part of the water inlet valve (19), a floating cylinder (22) for opening the water outlet is arranged on the needle valve (21), and the floating cylinder (22) is positioned in the water body in the water storage tank (5).
CN202222065940.1U 2022-08-08 2022-08-08 Push type interactive paddling view device Active CN217794272U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202222065940.1U CN217794272U (en) 2022-08-08 2022-08-08 Push type interactive paddling view device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202222065940.1U CN217794272U (en) 2022-08-08 2022-08-08 Push type interactive paddling view device

Publications (1)

Publication Number Publication Date
CN217794272U true CN217794272U (en) 2022-11-15

Family

ID=83973481

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202222065940.1U Active CN217794272U (en) 2022-08-08 2022-08-08 Push type interactive paddling view device

Country Status (1)

Country Link
CN (1) CN217794272U (en)

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